PublicationS


Recent 6 Years

2024

13. Chinna Bathula, Arun S Nissimagoudar, Subalakshmi Kumar, Atanu Jana, Sanker Sekar, Sejoon Lee, and Hyun-Seok Kim, 2024 (Jun), ’Enhanced photodegradation of methylene blue by Zr-doped TiO2:A combined DFT and experimental investigation’, Inorganic Chemistry Communications 164, 112442.

IF : 3.428(2021), IF 상위 33.696%(16/46) SCIE (CHEMISTRY, INORGANIC & NUCLEAR  분야)

IF : 3.8(2022), IF 상위 22.6%(10/42) SCIE (CHEMISTRY, INORGANIC & NUCLEAR  분야)

12. K. Karuppasamy, Jining Lin, Dhanasekaran Vikraman, Vishwanath Hiremath, P. Santhoshkumar, Hyun-Seok Kim, Akram Alfantazi, T. Maiyalagan, Jang G. Korvink, and Bharat Sharma, 2024 (Jun), ‘Towards greener energy storage: Brief insights into 3D-printed anode materials for sodium-ion batteries’, Current Opinion in Electrochemistry 45, 101482. 

IF : 7.664(2021), IF 상위 18.333%(6/30) SCIE (ELECTROCHEMISTRY 분야)

IF : 8.5(2022), IF 상위 15.0%(5/30) SCIE (ELECTROCHEMISTRY 분야)

11. Kathalingam Adaikalam, Dhanasekaran Vikraman, Du-Hee Lee, Yoon-A Cho, and Hyun-Seok Kim, 2024 (Apr), ’Optical and UV Shielding Properties of Inorganic Nanoparticles Embedded in Polymethyl Methacrylate Nanocomposite Freestanding Films’, Polymers 16(8), 1048. 

IF : 4.967(2021), IF 상위 17.222%(16/90) SCIE (POLYMER  SCIENCE 분야)

IF : 5.0(2022), IF 상위 18.0%(16/86) SCIE (POLYMER  SCIENCE 분야)

10. Dhanasekaran Vikraman, Sajjad Hussain, K. Karuppasamy, P. Santhoshkumar, Akram Alfantazi, Jongwan Jung, and Hyun-Seok Kim, 2024 (Apr), ’Facile fabrication of MoS2 and MoSe2 layered structures on Mo foil for the efficient photocatalytic dye degradation and electrocatalytic hydrogen evolution reaction’, Journal of Water Process Engineering 60, 105127.

IF : 7.340(2021), IF 상위 7.500%(8/100) SCIE (WATER RESOURCES 분야)

IF : 7.0(2022), IF 상위 5.3%(6/103) SCIE (WATER RESOURCES 분야)

9. Chinna Bathula, K. Mallikarjuna, Dhananjaya Rao Cuddapah, K. N. Chidmabara Kumar, Hyun-Seok Kim, Cheolho Bai, I. Neelakanta Reddy, 2024 (Apr), ’Palladium-platinum nanostructures from fenugreek extract for Suzuki coupling reaction’, Inorganic Chemistry Communications 162, 112177.

IF : 3.428(2021), IF 상위 33.696%(16/46) SCIE (CHEMISTRY, INORGANIC & NUCLEAR  분야)

IF : 3.8(2022), IF 상위 22.6%(10/42) SCIE (CHEMISTRY, INORGANIC & NUCLEAR  분야)

8. Sivalingam Ramesh, Chinna Bathula, Abu Talha  Aqueel Ahmed, Yuvaraj Haldorai, Vijaykakani Kakani, C. Karthikeyan, Manickam Selvaraj, Kyeongho Shin, Young-Jun Lee, Hyun-Seok Kim, Joo-Hyung Kim, Heung Sook Kim, 2024 (Mar), ’Nanostructurally fabrication of nickel oxide-interfaced carbon nanotubes for supercapacitors and exploration of electrochemical correlation via computer vision techniques and artificial intelligence’, Journal of Energy Storage 82, 110429. 

IF : 8.907(2021), IF 상위 18.908%(23/119) SCIE (ENERGY & FUELS 분야)

IF : 9.4(2022), IF 상위 15.5%(19/119) SCIE (ENERGY & FUELS 분야)

7. Zulfqar Ali Sheikh, Dhanasekaran Vikraman, Honggyun Kim, Sikandar Aftab, Shoyebmohamad F. Shaikh, Faisal Shahzad, Jongwan Jung, Hyun-Seok Kim, Sajjad Hussain, and Deok-Kee Kim, 2024 (Mar), ’Perovskite oxide-based nanoparticles embedded MXene composites for supercapacitors and oxygen evolution reactions’, Journal of Energy Storage 81, 110342.  

IF : 8.907(2021), IF 상위 18.908%(23/119) SCIE (ENERGY & FUELS 분야)

IF : 9.4(2022), IF 상위 15.5%(19/119) SCIE (ENERGY & FUELS 분야)

6. K. Karuppasamy, Jining Lin, Dhanasekaran Vikraman, Sajjad Hussain, Ramu Manikandan, Saeed Alameri, Hyun-Seok Kim, Akram Alfantazi, Jan G. Kornvik, and Bharat Sharma, 2024 (Mar), ’Engineering the growth and electrochemical assessments of phosphorous-doped nitrogen-based carbon nanofibers with 3D-interconnected weaving network structure for high-energy symmetric supercapacitors’, Journal of Energy Storage 80, 110290. 

IF : 8.907(2021), IF 상위 18.908%(23/119) SCIE (ENERGY & FUELS 분야)

IF : 9.4(2022), IF 상위 15.5%(19/119) SCIE (ENERGY & FUELS 분야)

5. Anandhavelu Sanmugam, D. Shanthi, Ananda Babu Sairam, Raju Suresh Kumar, Abdulrahman Almansour, Natrajan Arumugam, A. Kavitha, Hyun-Seok Kim, and Dhanasekaran Vikraman, 2024 (Feb), ’Fabrication of chitosan/fibrin-armored multifunctional silver nanocomposites to improve antibacterial and wound healing activities’, International Journal of Biological Macromolecules 257, 128598. 

IF : 8.025(2021), IF 상위 6.111%(6/90) SCIE (POLYMER SCIENCE 분야)

IF : 8.2(2022), IF 상위 5.2%(5/86) SCIE (POLYMER SCIENCE 분야)

4. K. Karuppasamy, Dhanasekaran Vikraman, Ranjith Bose, Sajjad Hussain, P. Santhoshkumar, Ramu Manikandan, Jongwan-Jung, Saeed Alameri, Akram Alfantazi, and Hyun-Seok Kim, 2024 (Jan), ’Unveiling the redox electrochemical kinetics of interconnected wrinkled microspheres of binary Cu2-xSe/Ni1-xSe as battery-type electrode for advanced supercapatteries’, Journal of Colloid and Interface Science 654, 1098-1110.  

IF : 9.965(2021), IF 상위 19.697%(33/165) SCIE (CHEMISTRY, PHYSICAL 분야)

IF : 9.9(2022), IF 상위 17.7%%(29/161) SCIE (CHEMISTRY, PHYSICAL 분야)

3. Jun-Hyeok Choi, Dohyung Kim, Seo-Jun Lee, Ji-Hun Kim, Yoon-A Cho, Byoung-Gue Min, Dong Min Kang, and Hyun-Seok Kim, 2024 (Jan), ’Improved RF Performances by Applying Asymmetric Passivation and Air-bridged Field Plate in AlGaN/GaN HEMTs with Reliability-based Simulation’, submitted to IEEE Transactions on Electron Devices 71(1), 468-475.

IF : 3.221(2021), IF 상위 59.636%(112/276) SCIE (ENGINEERING, ELECTRICAL & ELECTRONIC 분야)

IF : 3.1(2022), IF 상위 43.8%(121/275) SCIE (ENGINEERING, ELECTRICAL & ELECTRONIC 분야)

2. Woo-Seok Kang, Jun-Hyeok Choi, Dohyung Kim, Ji-Hun Kim, Jun-Ho Lee, Byoung-Gue Min, Dong Min Kang, Jung Han Choi, and Hyun-Seok Kim, 2024 (Jan), ’Optimization of Gate-Head-Top/Bottom Lengths of AlGaN/GaN High-Electron-Mobility Transistors with a Gate-Recessed Structure for High-Power Operations: A Simulation Study’, Micromachines 15(1), 57. 

IF : 3.523(2021), IF 상위 39.655%(35/87) SCIE (CHEMISTRY, ANALYTICAL  분야)

IF : 3.4(2022), IF 상위 33.1%(29/86) SCIE (CHEMISTRY, ANALYTICAL  분야)

1. Anandhavelu Sanmugam, Logesh Kumar Sellappan, Swathy Manoharan, A. Rameshkumar, Raju Suresh Kumar, Abdulrahman I. Almansour, Natrajan Arumugam, Hyun-Seok Kim, and Dhanasekaran Vikraman, 2024 (Jan), ‘Development of chitosan-based cerium and titanium oxide loaded polycaprolactone for cutaneous wound healing and antibacterial applications’, International Journal of Biological Macromolecules 256, 128458. 

IF : 8.025(2021), IF 상위 6.111%(6/90) SCIE (POLYMER & SCIENCE 분야)

IF : 8.2(2022), IF 상위 5.2%(5/86) SCIE (POLYMER & SCIENCE 분야)

2023

33. Ramasubba Reddy Palem, Chinna Bathula, Ganesh Shimoga, Soo-Hong Lee, Ayman A. Ghfar, Sankar Sekarf, Hyun-Seok Kim, Young-Soo Seo, Iqra Rabani, 2023 (Dec), 'Fabrication of Ru loaded MgB2 with guar gum hybrid for photocatalytic degradation of crystal violet', International Journal of Biological Macromolecules 253, 126948. 

IF : 6.953(2020), IF 상위 6.111%(6/90) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 8.025(2021), IF 상위 6.111%(6/90) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 8.2(2022), IF 상위 5.2%(5/86) SCIE (Metallurgy & Metallurgical Engineering 분야)

32. P. Santhoshkumar, T. Subburaj, Dhanasekaran Vikraman, K. Karuppasamy, A. Kathalingam, Hyun-Seok Kim,  2023 (Dec), ‘High-performance nanoribbon-like CuV2O5 hybrid composite as a bifunctional electrode for rechargeable batteries’, Journal of Alloys and Compounds 968, 172096.

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.2(2022), IF 상위 9.6%(8/78) SCIE (Metallurgy & Metallurgical Engineering 분야)

31. K. Karuppasamy, Ashutosh Sharma, Dhanasekaran Vikraman, Yoon-A. Lee, Periyasamy Sivakumar, Jan G. Korvink, Hyun-Seok Kim, Bharat Sharma, 2023 (Dec), ’Room-temperature response of MOF-derived Pd@PdO core shell/γ-Fe2O3 microcubes decorated graphitic carbon based ultrasensitive and highly selective H2 gas sensor’, Journal of Colloid and Interface Science 652, 692-704. 

IF : 8.128(2020), IF 상위 19.444%(32/162) SCIE (Chemistry, Physical 분야) 

IF : 9.965(2021), IF 상위 19.697%(33/165) SCIE (Chemistry, Physical 분야) 

IF : 9.9(2022), IF 상위 17.7%(29/161) SCIE (Chemistry, Physical 분야)

30. K. Mallikarjuna, P. Reddy Prasad, Chinna Bathula, Nadavala Siva Kumar, Ahmed S. Al-Fatesh, Hyun-Seok Kim, Cheolho Bai, I. Neelakanta Reddy, 2023 (Dec), ‘Construction of highly efficient CuS/CdS nanostructure for enhanced solar H2 evolution’, Inorganic Chemistry Communications 158, 111619.

IF : 2.495(2020), IF 상위 45.556%(21/45) SCIE (Chemistry, Inorganic & Nuclear 분야) 

IF : 3.428(2021), IF 상위 33.696%(16/46) SCIE (Chemistry, Inorganic & Nuclear 분야) 

IF : 3.8(2022), IF 상위 22.6%(10/42) SCIE (Chemistry, Inorganic & Nuclear 분야)

29. Dhanasekaran Vikraman, Sajjad Hussain, Tassawar Hussain, K. Karuppasamy, P. Santhoshkumarf, Kyeong-Yong Kim, Ramu Manikandan, Jongwan Jung, Hyun-Seok Kim, 2023 (Nov), ’Diverse chalcogen bonded molybdenum dichalcogenide alloy for the efficient photo- and electro-catalytic activity to eradicate the methylene blue and Congo red dyes’, Journal of Cleaner Production 426, 139127. 

IF : 9.297(2020), IF 상위 6.387%(18/274) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 11.072(2021), IF 상위 8.423%(24/279) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 11.1(2022), IF 상위 7.8%(22/275) SCIE (Metallurgy & Metallurgical Engineering 분야)

28. Dhanasekaran Vikramana, Sajjad Hussain, Zeesham Abbas, K. Karuppasamya, Woo-Seok Kanga, P. Santhoshkumar, A. Kathalingamd, Jongwan Jung, and Hyun-Seok Kim, 2023 (Nov), ’Exploring the experimental study and density functional theory calculations of symmetric and asymmetric chalcogen atoms interacted molybdenum dichalcogenides for lithium-ion batteries’, Journal of Materials Science & Technology 162, 44-56.   

IF : 8.067(2020), IF 상위 3.125%(3/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 10.320(2021), IF 상위 1.899%(2/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 10.9(2022), IF 상위 1.9%(2/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

27. Chinna Bathula, Soniya Naik, Atanu Jana, Ramasubba Reddy Palem, Aditya Narayan Singh, Mohammad Rafe Hatshan, Suresh D. Mane, and Hyun-Seok Kim, 2023 (Oct), ‘Polymer backbone stabilized methylammonium lead bromide perovskite nano islands’, Nanomaterials 13(20), 2750.  

IF : 5.076(2020), IF 상위 21.562%(35/160) SCIE (Physics, Applied 분야)

IF : 5.719(2021), IF 상위 22.671%(37/161) SCIE (Physics, Applied 분야)

IF : 5.3(2022), IF 상위 23.6%(38/159) SCIE (Physics, Applied 분야)

26. Sajjad Hussain, Pranav K. Katkar, Dhanasekaran Vikraman, Zulfqar Ali Sheikh, Ghazanfar Nazir, Khalid Mujasam Batoo, Deok-Kee Kim, Hyun-Seok Kim, and Jongwan Jung, 2023 (Oct), ’Direct and binder-free MXene-assisted cobalt manganese phosphate electrode fabrication on carbon cloth by electrosynthesis for efficient supercapacitors’, International Journal of Energy Research 2023, 6653784.  

IF : 5.164(2020), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야) 

IF : 4.672(2021), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 4.6(2022), IF 상위 1.5%(1/34) SCIE (Nuclear Science & Technology 분야)

25. Adaikalam Kathalingam, Palanisamy Santhoshkumar, Sivalingam Ramesh, Iyyakkannu Sivanesan, and Hyun-Seok Kim, 2023 (Oct), ’Biogenic polymer nanoparticles to remove hydrophobic contaminants from water’, Water Environment Research 95(10), e10935. 

IF : 1.946(2020), IF 상위 50.000%(11/21) SCIE (Limnology 분야)

IF : 3.306(2021), IF 상위 16.667%(4/21) SCIE (Limnology 분야)

IF : 3.1(2022), IF 상위 16.7%(4/21) SCIE (Limnology 분야)

24. Sajjad Hussain, Hailiang Liu, Sikandar Aftab, Khalid Mujasam Batoo, K. Karuppasamy, T. Maiyalagan, Hyun-Seok Kim, Jungwon Kang, Jongwan Jung, Dhanasekaran Vikraman, 2023 (Oct), ’Decoration of transition metal carbide nanoparticles on reduced graphene oxide for the efficient bulk heterojunction organic photovoltaics’, Surfaces and Interfaces 41, 103250.

IF : 4.837(2020), IF 상위 16.667%(4/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 6.137(2021), IF 상위 12.500%(3/20) SCIE (Materials Science, Coatings & Films 분야)

IF : 3.724(2022), IF 상위 11.9%(3/21) SCIE (Materials Science, Coatings & Films 분야)

23. Hailiang Liu, Sajjad Hussain, Syed Hassan Abbas Jaffery, Jehoon Lee, Sikandar Aftab, Jongwan Jung, Hyun-Seok Kim, Jungwon Kang, Dhanasekaran Vikraman, 2023 (Oct), ’Construction of perovskite solar cells and X-ray detectors using the indium selenide-carbon nanotube hybrids tuned hole transporting layer’, Surfaces and Interfaces 41, 103234.   

IF : 4.837(2020), IF 상위 16.667%(4/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 6.137(2021), IF 상위 12.500%(3/20) SCIE (Materials Science, Coatings & Films 분야)

IF : 3.724(2022), IF 상위 11.9%(3/21) SCIE (Materials Science, Coatings & Films 분야)

22. P. Santhoshkumar, K. Karuppasamy, Dhanasekaran Vikraman, T. Maiyalagan, Hyun-Seok Kim, 2023 (Oct), ‘Preparation and electrochemical performance of foam-like CeO2 nanofoam as negative electrode material for rechargeable lithium-ion batteries’, Surfaces and Interfaces 41, 103175.  

IF : 4.837(2020), IF 상위 16.667%(4/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 6.137(2021), IF 상위 12.500%(3/20) SCIE (Materials Science, Coatings & Films 분야)

IF : 3.724(2022), IF 상위 11.9%(3/21) SCIE (Materials Science, Coatings & Films 분야)

21. P. Santhoshkumar, T. Subburaj, Yoona Lee, K. Karuppasamy, Dhanasekaran Vikraman, Hyun-Seok Kim, 2023 (Oct), ’Engineering robust biopolymer-derived carbon growth of Ni-rich cathode materials for high-performance Li-ion batteries’, Journal of Energy Storage 69, 107915. 

IF : 6.583(2020), IF 상위 24.123%(28/114) SCIE (Energy & Fuels 분야)

IF : 8.907(2021), IF 상위 18.908%(23/119) SCIE (Energy & Fuels 분야)

IF : 9.4(2022), IF 상위 15.5%(19/119) SCIE (Energy & Fuels 분야)

20. Chinna Bathula, Atanu Jana, Ritesh Soni, M. Naushad, and Hyun-Seok Kim, 2023 (Sept), ’Enhanced stability of methylammonium lead bromide perovskite interlaced on cellulose nanofiber’, Ceramics International 49(18), 30886-30891. 

IF : 4.527(2020), IF 상위 8.62%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.532(2021), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.2(2022), IF 상위 8.6%(3/29) SCIE (Materials Science, Ceramics 분야)

19. Sajjad Hussain, Dhanasekaran Vikraman, Zeesham Abbas, Muhammad Faizan, Sikandar Aftab, Khalid Mujasam Batoo, Hyun-Seok Kim, Kyung-Wan Nam, Jongwan Jung, 2023 (Sept), ’Hierarchical dessert plant-like CoNiO2 nanowires decoration on MoS2 nano-petals for enhanced bi-functional overall water splitting reactions’, Sustainable Materials and Technologies 37, e00696.

IF : 7.053(2020), IF 상위 19.737%(23/114) SCIE (Energy & Fuels 분야)

IF : 10.681(2021), IF 상위 13.866%(17/119) SCIE (Energy & Fuels 분야)

IF : 9.6(2022), IF 상위 14.7%(18/119) SCIE (Energy & Fuels 분야)

18. Sivalingam Ramesh, K. Karuppasamy, H. M. Yadav, Young-Jun Lee, Arumugam Sivasamy, A. Kathalingam, Hyun-Seok Kim, Joo-Hyung Kim, Heung Soo Kim, 2023 (Sept), ‘Fabrication of CuCo2S4 on composite interface materials made of polypyrrole and nitrogen-doped carbon nanotubes for use in supercapacitors’, Journal of Energy Storage 67, 107518. 

IF : 6.583(2020), IF 상위 24.123%(28/114) SCIE (Energy & Fuels 분야)

IF : 8.907(2021), IF 상위 18.908%(23/119) SCIE (Energy & Fuels 분야)

IF : 9.4(2022), IF 상위 15.5%(19/119) SCIE (Energy & Fuels 분야)

17. Chinna Bathula, Abhishek Meena, Sankar Sekar, Aditya Narayan Singh, Ritesh Soni, Adel El-Marghany, Ramasubba Reddy Palem, and Hyun-Seok Kim, 2023 (Aug), ’Self-assembly of copper oxide interfaced MnO2 for oxygen evolution reaction’, Nanomaterials 13(16), 2329.

IF : 5.076(2020), IF 상위 21.562%(35/160) SCIE (Physics, Applied 분야)

IF : 5.719(2021), IF 상위 22.671%(37/161) SCIE (Physics, Applied 분야)

IF : 5.3(2022), IF 상위 23.6%(38/159) SCIE (Physics, Applied 분야)

16. A. Kathalingam, Dhanasekaran Vikraman, Karuppasamy Pandian Marimuthu, K. Karuppasamy, Hyungyil Lee, T.Maiyalagan, and Hyun-Seok Kim, 2023 (Aug), ‘Characterization and application of flexible, highly conductive freestanding films of SWCNT and PMMA nanocomposite prepared by facile solution method’, Surfaces and Interfaces 40, 103161.

IF : 4.837(2020), IF 상위 16.667%(4/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 6.137(2021), IF 상위 12.500%(3/20) SCIE (Materials Science, Coatings & Films 분야)

IF : 3.724(2022), IF 상위 11.9%(3/21) SCIE (Materials Science, Coatings & Films 분야)

15. Dhanasekaran Vikraman, Sajjad Hussain, Zeesham Abbas, K. Karuppasamy, P. Santhoshkumar, Jongwan Jung, and Hyun-Seok Kim, 2023 (Jun), ’Density functional theory approximations and experimental investigations on the Co1-xMoxTe2 alloy electrocatalysts tuning the overall water splitting reactions’, ACS Applied Materials & Interfaces 15(22), 26893-26909.  

IF : 9.229(2020), IF 상위 13.024%(44/334) SCIE (Materials Science, Multidisciplinary 분야)

IF : 10.383(2021), IF 상위 14.058%(49/345) SCIE (Materials Science, Multidisciplinary 분야)

IF : 9.5(2022), IF 상위 15.9%(55/342) SCIE (Materials Science, Multidisciplinary 분야)

14. K. Karuppasamy, Jayaraman Theerthagiri, Aravindhan Selvaraj, Dhanasekaran Vikraman, Hemalatha Parangusan, R. Mythili, Myong Yong Choi, and Hyun-Seok Kim, 2023 (Jun),’Current trends and prospects in catalytic upgrading of lignocellulosic biomass feedstock into ultrapure biofuels’, Environmental Research 226, 115660. 

IF : 6.498(2020), IF 상위 7.598%(16/204) SCIE (Public, Environmental & Occupational Health 분야)

IF : 8.431(2021), IF 상위 9.762%(21/210) SCIE (Public, Environmental & Occupational Health 분야)

IF : 8.3(2022), IF 상위 7.5%(16/207) SCIE (Public, Environmental & Occupational Health 분야

13. Jayaraman Theerthagiri, K. Karuppasamy, Juhyeon Park, Nihila Rahamathulla, M. L. A. Kumari, Marciélli  K. R. Souza, Eduardo S. F. Cardoso, Arun Prasad Murthy, Gilberto Maia, Hyun-Seok Kim, and Myong Yong Choi, 2023 (Jun), ’Electrochemical conversion of biomass-derived aldehydes into fine chemicals and hydrogen: A review’,  Environmental Chemistry Letters 21(3), 1555-1583. 

IF : 9.027(2020), IF 상위 7.482%(21/274) SCIE (Environmental Sciences 분야)

IF : 13.615(2021), IF 상위 4.839%(14/279) SCIE (Environmental Sciences 분야)

IF : 15.7(2022), IF 상위 2.7%(8/274) SCIE (Environmental Sciences  분야) 

12. Jun-Heok Choi, Woo-Seok Kang, Dohyung Kim, Ji-Hun Kim, Jun-Ho Lee, Kyeong-Yong Kim, Byoung-Gee Min, Dong Min Kang, and Hyun-Seok Kim, 2023 (May), ’Enhanced Operational Characteristics Attained by Applying HfO2 as Passivation in AlGaN/GaN High-Electron-Mobility Transistors: A Simulation Study’, Micromachines 14(6), 1101. 

IF : 2.891(2020), IF 상위 35.156%(23/64) SCIE (Instruments & Instrumentation 분야)

IF : 3.523(2021), IF 상위 32.031%(21/64) SCIE (Instruments & Instrumentation 분야) 

IF : 3.4(2022), IF 상위 38.9%(25/63) SCIE (Instruments & Instrumentation 분야)

11. Alfred Bekoe Appiagyei, Daniel Adjah Anang, Jacob Otabil Bonsu, Lois Asiedua-Ahenkorah, Suresh D. Mane, Hyun-Seok Kim, and Chinna Bathula, 2023 (May), ’Sucrose-directed porous carbon interfaced α-Fe2O3-rGO for supercapacitors’, Journal of Electroanalytical Chemistry 936, 117383. 

IF : 4.464(2020), IF 상위 22.414%(20/87) SCIE (Chemistry, Analytical 분야) 

IF : 4.598(2021), IF 상위 23.563%(21/87) SCIE (Chemistry, Analytical 분야) 

IF : 4.5(2022), IF 상위 20.3%(18/86) SCIE (Chemistry, Analytical 분야)

10. Sajjad Hussain, Hailiang Liu, Dhanasekaran Vikraman, Syed Hassan Abbas Jaffery, Ghazanfar Nazir, Faisal Shahzad, Khaild Mujasam Batoo, Jongwan Jung, Jungwon Kang, and Hyun-Seok Kim, 2023 (Apr), ’Tuning of electron transport layers using MXene/metal-oxide nanocomposites for perovskite solar cells and X-ray detectors’, Nanoscale 15(16), 7329-7343.

IF : 7.790(2020), IF 상위 14.062%(23/160) SCIE (Physics, Applied 분야) 

IF : 8.307(2021), IF 상위 13.975%(23/161) SCIE (Physics, Applied 분야) 

IF : 6.7(2022), IF 상위 16.7%(27/159) SCIE (Physics, Applied 분야)

9. Kavitha Andiappan, Anandhavelu Sanmugam, Easwaramoorthy Deivanayagam, K. Karuppasamy, Hyun-Seok Kim, and Dhanasekaran Vikraman, 2023 (Apr), ’Detailed investigations of rare earth (Yb, Er and Pr) based inorganic metal-ion complexes for antibacterial and anticancer applications’, Inorganic Chemistry Communications 150, 110510.

IF : 2.495(2020), IF 상위 45.556%(21/45) SCIE (Chemistry, Inorganic & Nuclear 분야) 

IF : 3.428(2021), IF 상위 33.696%(16/46) SCIE (Chemistry, Inorganic & Nuclear 분야) 

IF : 3.8(2022), IF 상위 22.6%(10/42) SCIE (Chemistry, Inorganic & Nuclear 분야)

8. K. Karuppasamy, Dhanasekaran Vikraman, Sajjad Hussain, Balamurugan Thirumalraj, P. Santhoshkumar, Hemalatha Parangusan, Hyun-Chang Park, Jongwan Jung, and Hyun-Seok Kim, 2023 (Apr), ’Unveiling the redox electrochemistry of 1D, urchin-like vanadium sulfide electrodes for high-performance hybrid supercapacitors’, Journal of Energy Chemistry 79, 569-580.

IF : 9.676(2020), IF 상위 2.027%(2/74) SCIE (Chemistry, Applied 분야) 

IF : 13.599(2021), IF 상위 0.685%(1/73) SCIE (Chemistry, Applied 분야) 

F : 13.1(2022), IF 상위 2.1%(2/72) SCIE (Chemistry, Applied 분야)

7. Vijaya Gopalan Sree, Soniya Naik, Atanu Jana, Abhijit Kadam, Sankar Sekar, Hyunsik Im, Hyun-Seok Kim, Jung Inn Sohn, and Chinna Bathula, 2023 (Mar), ’Mechanochemically interlocked cubane copper complex interface for WOLED’, Journal of Colloid and Interface Science 633, 589-597.

IF : 8.128(2020), IF 상위 19.444%(32/162) SCIE (Chemistry, Physical 분야) 

IF : 9.965(2021), IF 상위 19.697%(33/165) SCIE (Chemistry, Physical 분야) 

IF : 9.9(2022), IF 상위 17.7%(29/161) SCIE (Chemistry, Physical 분야)

6. Sajjad Hussain, Dhanasekaran Vikraman, Maria Sarfraz, Muhammad Faizan, Supriya A. Patil, Khalid Mujasam Batoo, Kyung-Wan Nam, Hyun-Seok Kim, and Jongwan Jung, 2023 (Feb), ’Design of XS2 (X = W or Mo)-decorated VS2 hybrid nano-architectures with abundant active edge sites for high-rate asymmetric supercapacitors and hydrogen evolution reactions’, Small 19(8), 2205881.  

IF : 13.281(2020), IF 상위 6.562%(11/160) SCIE (Physics, Applied 분야) 

IF : 15.153(2021), IF 상위 6.522%(11/161) SCIE (Physics, Applied 분야) 

IF : 13.3(2022), IF 상위 6.6%(11/159) SCIE (Physics, Applied 분야)

5. K. Karuppasamy, Ranjith Bose, Dhanasekaran Vikraman, Sivalingam Ramesh, Heung Soo Kim, Emad Alhseinat, Akram Alfantazi, and Hyun-Seok Kim, 2023 (Feb), ‘Revealing the effect of various organic ligands on the OER activity of MOF-derived 3D hierarchical cobalt oxide @ carbon nanostructures’, Journal of Alloys and Compounds 934, 167909.   

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.2(2022), IF 상위 9.6%(8/78) SCIE (Metallurgy & Metallurgical Engineering 분야)

4. Eun-Bee Jo, Yoon-A Lee, Yoon-A Cho, Paul A. Günther, Sylvia E. Gebhardt, Holger Neubert, and Hyun-Seok Kim, 2023 (Feb), ‘The 0-3 Lead Zirconate-Titanate (PZT)/Polyvinyl-Butyral (PVB) Composite for Tactile Sensing’, Sensors 23(3), 1649.

IF : 3.576(2020), IF 상위 21.094%(14/64) SCIE (Instruments & Instrumentation 분야) 

IF : 3.847(2021), IF 상위 28.906%(19/64) SCIE (Instruments & Instrumentation 분야)

IF : 3.9(2022), IF 상위 29.4%(19/63) SCIE (Instruments & Instrumentation 분야)

 3. Alfred Bekoe Appiagyei, Lois Asiedua-Ahenkorah, Chinna Bathula, Hyun-Seok Kim, Sung Soo Han, Kummara Madhusudana Rao, and Daniel Adjah Anang, 2023 (Feb), ‘Rational design of sucrose-derived graphitic carbon coated MnMoO4 for high performance asymmetric supercapacitor’, Journal of Energy Storage 58, 106383. 

IF : 6.583(2020), IF 상위 24.123%(28/114) SCIE (Energy & Fuels 분야)

IF : 8.907(2021), IF 상위 18.908%(23/119) SCIE (Energy & Fuels 분야)

IF : 9.4(2022), IF 상위 16.1%(19/115) SCIE (Energy & Fuels 분야)

2. Sajjad Hussain, Dhanasekaran Vikraman, Zulfqar Ali Sheikh, Muhammad Taqi Mehran, Faisal Shahzad, Khalid Mujamsam Batoo, Hyun-Seok Kim, Deok Kee Kim, Muhammad Ali, Jongwan Jung, 2023 (Jan), ’WS2-embedded MXene/GO hybrid nanosheets as electrodes for asymmetric supercapacitors and hydrogen evolution reactions’, Chemical Engineering Journal 452, 139523.  

IF : 13.273(2020), IF 상위 2.448%(4/143) SCIE (Engineering, Chemical 분야)

IF : 16.744(2021), IF 상위 2.465%(4/142) SCIE (Engineering, Chemical 분야)

IF : 15.1(2022), IF 상위 3.2%(5/140) SCIE (Engineering, Chemical 분야)

1. Aditya Narayan Singh, Amir Hajibabaei, Miran Ha, Abhishek Meena, Hyun-Seok Kim, Chinna Bathula, and Kyung-Wan Nam, 2023 (Jan), ‘Reduced Potential Barrier of Sodium-Substituted Disordered Rocksalt Cathode for Oxygen Evolution Electrocatalysts’, Nanomaterials 13(1), 10.   

IF : 5.076(2020), IF 상위 21.562%(35/160) SCIE (Physics, Applied 분야)

IF : 5.719(2021), IF 상위 22.671%(37/161) SCIE (Physics, Applied 분야)

IF : 5.3(2022), IF 상위 23.6%(38/159) SCIE (Physics, Applied 분야)

2022

52. A. Vetrimani, K. Geetha, E. A. Jemima, N. Arulnathan, H. S. Kim, and A. Kathalingam, 2022 (Dec), ’Effect of the green synthesis of CuO plate-like nanoparticles on their photodegradation and antibacterial activities’, Physical Chemistry Chemical Physics 24, 28923-28933.  

IF : 3.430(2019), IF 상위 20.270%(8/37) SCIE (Physics, Atomic, Molecular & Chemical 분야)

IF : 3.676(2020), IF 상위 20.270%(8/37) SCIE (Physics, Atomic, Molecular & Chemical 분야)

IF : 3.945(2021), IF 상위 23.611%(9/36) SCIE (Physics, Atomic, Molecular & Chemical 분야)

51. P. Santhoshkumar, D. Vikraman, S. Hussain, K. Karuppasamy, A. Kathalingam, and H. S. Kim, 2022 (Dec), ’3D-architectured spherical Ce2Mo5O16 by a time-dependent hydrothermal process and their energy storage application’, Journal of Alloys and Compounds 928, 167215.   

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

50. H. Kaur, R. Garg, S. Singh, A. Jana, C. Bathula, H. S. Kim, S. G. Kumbar, and M. Mittal, 2022 (Dec), ‘Progress and challenges of graphene and its congeners for biomedical applications’, Journal of Molecular Liquids 368, 120703.  

IF : 5.065(2019), IF 상위 9.459%(4/37) SCIE (Physics, Atomic, Molecular & Chemical 분야)

IF : 6.165(2020), IF 상위 9.459%(4/37) SCIE (Physics, Atomic, Molecular & Chemical 분야)

IF : 6.633(2021), IF 상위 15.278%(6/36) SCIE (Physics, Atomic, Molecular & Chemical 분야)

49. D. Vikraman, S. Hussain, S. H. A. Jaffery, H. Liu, K. Karuppasamy, A. Sanmugam, J. Jung, and H. S. Kim, 2022 (Dec), ’Tuning the layered thickness of MoTe2 thin film for dye-sensitized solar cells, UV and visible spectrum photodetectors, and hydrogen evolution reaction’, Solar RRL 6(12), 2200610. 

IF : 7.527(2019), IF 상위 12.054%(14/112) SCIE (Energy & Fuels 분야)

IF : 8.582(2020), IF 상위 11.842%(14/114) SCIE (Energy & Fuels 분야)

IF : 9.173(2021), IF 상위 17.536%(61/345) SCIE (Materials Science, Multidisciplinary 분야)

48. J. Theerthagiri, K. Karuppasamy, A. Min, D. Govindarajan, M. L. A. Kumari, G. Muthusamy, S. Kheawhom, H. S. Kim, and M. Y. Choi, 2022 (Dec), ‘Unraveling the fundamentals of pulsed laser-assisted synthesis of nanomaterials in liquids: Applications in energy and the environment’, Applied Physics Reviews 9(4), 041314. 

IF : 17.054(2019), IF 상위 3.548%(6/155) SCIE (Physics, Applied 분야)

IF : 19.162(2020), IF 상위 4.062%(7/160) SCIE (Physics, Applied 분야)

IF : 19.527(2021), IF 상위 5.280%(9/161) SCIE (Physics, Applied 분야)

47. A. T. A. Ahmed, R. Soni, A. S. Ansari, C. Y. Lee, H. S. Kim, H. Im, C. Bathula, 2022 (Dec), ’Biowaste-derived graphitic carbon interfaced TiO2 as anode for lithium-ion battery’, Surfaces and Interfaces 35, 102404.  

IF : 3.724(2019), IF 상위 16.667%(4/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 4.837(2020), IF 상위 16.667%(4/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 6.137(2021), IF 상위 12.500%(3/20) SCIE (Materials Science, Coatings & Films 분야)

46. S. Ramesh, K. Karuppasamy, D. Vikraman, H. M. Yadav, H. S. Kim, J. H. Kim, and H. S. Kim, 2022 (Nov), ’Structural and electrochemical properties of NiCo2S4@Nitrogen-doped graphene oxide /carboxy methyl cellulose interface composite for supercapacitor electrode materials’, Journal of Energy Storage 55, 105728. 

IF : 3.762(2019), IF 상위 39.732%(45/112) SCIE (Energy & Fuels 분야)

IF : 6.583(2020), IF 상위 24.123%(28/114) SCIE (Energy & Fuels 분야)

IF : 8.907(2021), IF 상위 18.908%(23/119) SCIE (Energy & Fuels 분야)

45. D. Vikraman, S. Hussain, L. Hailiang, K. Karuppasamy, P. Sivakumar, P. Santhoshkumar, J. Jung, and H. S. Kim, 2022 (Nov), ‘Spinel-structured metal oxide-embedded MXene nanocomposites for efficient water splitting reactions’, Inorganic Chemistry Frontiers 9(22), 5903-5916. 

IF : 5.958(2019), IF 상위 5.556%(3/45) SCIE (Chemistry, Inorganic & Nuclear 분야)

IF : 6.569(2020), IF 상위 5.556%(3/45) SCIE (Chemistry, Inorganic & Nuclear 분야)

IF : 7.779(2021), IF 상위 5.435%(3/46) SCIE (Chemistry, Inorganic & Nuclear 분야)

44. K. Karuppasamy, R. Bose, D. B. Velusamy, D. Vikraman, P. Santhoshkumar, P. Sivakumar, A. Alfantazi, and H. S. Kim, 2022 (Nov), ‘Rational Design and Engineering of Metal–Organic Framework-Derived Trimetallic NiCoFe-Layered Double Hydroxides as Efficient Electrocatalysts for Water Oxidation Reaction’, ACS Sustainable Chemistry & Engineering 10(45), 14693-14704. 

IF : 7.632(2019), IF 상위 5.245%(8/143) SCIE (Engineering, Chemical 분야)

IF : 8.198(2020), IF 상위 9.441%(14/143) SCIE (Engineering, Chemical 분야)

IF : 9.224(2021), IF 상위 8.803%(13/142) SCIE (Engineering, Chemical 분야)

43. J. H. Lee, J. H. Choi, W. S. Kang, D. Kim, B. G. Min, D. M. Kang, J. H. Choi, and H. S. Kim, 2022 (Nov), ’Analysis of Operational Characteristics of AlGaN/GaN High-Electron-Mobility Transistor with Various Slant-Gate-Based Structures: A Simulation Study’, Micromachines 13(11), 1957. 

IF : 2.524(2019), IF 상위 36.719%(24/64) SCIE (Instruments & Instrumentation 분야)

IF : 2.891(2020), IF 상위 35.156%(23/64) SCIE (Instruments & Instrumentation 분야)

IF : 3.523(2021), IF 상위 32.031%(21/64) SCIE (Instruments & Instrumentation 분야)

42. K. Karuppasamy, A. Nichelson, D. Vikraman, J. H. Choi, S. Hussain, C. Ambika, R. Bose, A. Alfantazi, and H. S. Kim, 2022 (Nov), ‘Recent advancements in two-dimensional layered molybdenum and tungsten carbide-based materials for efficient hydrogen evolution reactions’, Nanomaterials 12(21), 3884. 

IF : 4.324(2019), IF 상위 28.185%(89/314) SCIE (Materials Science, Multidisciplinary 분야)

IF : 5.076(2020), IF 상위 21.562%(35/160) SCIE (Physics, Applied 분야)

IF : 5.719(2021), IF 상위 22.671%(37/161) SCIE (Physics, Applied  분야)

41. D. Vikraman, S. Hussain, K. Karuppasamy, P. Santhoshkumar, A. Kathalingam, J. Jung, and H. S. Kim, 2022 (Oct), ’Fabrication of asymmetric supercapacitors using molybdenum dichalcogenide nanoarray structures’, International Journal of Energy Research 46(13), 18410-18425. 

IF : 3.741(2019), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 5.164(2020), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야) 

IF : 4.672(2021), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

40. A. Sharma, K. Karuppasamy, D. Vikraman, Y. Cho, K. Adaikalam, J. G. Korvink, H. S. Kim, and B. Sharma, 2022 (Oct), ’Metal Organic Framework-Derived ZnO@GC Nanoarchitecture as an Effective Hydrogen Gas Sensor with Improved Selectivity and Gas Response’, ACS Applied Materials & Interfaces 14(39), 44516-44526. 

IF : 8.758(2019), IF 상위 10.350%(33/314) SCIE (Materials Science, Multidisciplinary 분야)

IF : 9.229(2020), IF 상위 13.024%(44/334) SCIE (Materials Science, Multidisciplinary 분야)

IF : 10.383(2021), IF 상위 14.058%(49/345) SCIE (Materials Science, Multidisciplinary 분야)

39. S. Ramesh, H. M. Yadav, C. Bathula, R. R. Palem, S. Arumugam, A. Kathalingam, H. S. Kim, and H. S. Kim, 2022 (Oct), ’V2O5 nano sheets assembled  on nitrogen doped multiwalled carbon nanotubes/carboxy methyl cellulose composite for two-electrode configuration of supercapacitor applications’, Ceramics International 48(19), 29247-29256.

IF : 3.830(2019), IF 상위 5.357%(2/28) SCIE (Materials Science, Ceramics 분야)

IF : 4.527(2020), IF 상위 8.62%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.532(2021), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)

38. K. Geetha, D. Sivasangari, H. S. Kim, G. Murugadoss, and A. Kathalingam, 2022 (Oct), ‘Electrospun nanofibrous ZnO/PVA/PVP composite films for efficient antimicrobial face masks’, Ceramics International 48(19), 29197-29204. 

IF : 3.830(2019), IF 상위 5.357%(2/28) SCIE (Materials Science, Ceramics 분야)

IF : 4.527(2020), IF 상위 8.62%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.532(2021), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)

37. S. Ramesh, K. Karuppasamy, D. Vikraman, H. M. Yadav, H. S. Kim, A. Sivasamy, and H. S. Kim, 2022 (Oct), ’Fabrication of NiCo2S4 accumulated on metal organic framework nanostructured with multiwalled carbon nanotubes composite material for supercapacitor application’, Ceramics International 48(19), 29102-29110. 

IF : 3.830(2019), IF 상위 5.357%(2/28) SCIE (Materials Science, Ceramics 분야)

IF : 4.527(2020), IF 상위 8.62%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.532(2021), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)

36. R. R. Palem, A. Meena, R. Soni, J. Meena, S. H. Lee,  S. A. Patil, S. Ansar, H. S. Kim, H. Im, and C. Bathula, 2022 (Oct), ’Fabrication of Fe2O3 nanostructure on CNT for oxygen evolution reaction’, Ceramics International 48(19), 29081-29086. 

IF : 3.830(2019), IF 상위 5.357%(2/28) SCIE (Materials Science, Ceramics 분야)

IF : 4.527(2020), IF 상위 8.62%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.532(2021), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)

35. A. Kathalingam, D. Vikraman, K. Karuppasamy, and H. S. Kim, 2022 (Oct), ’Water mediated electrochemical conversion of PMMA and other organic residues into graphene and carbon materials’, Ceramics International 48(19), 28906-28917.

IF : 3.830(2019), IF 상위 5.357%(2/28) SCIE (Materials Science, Ceramics 분야)

IF : 4.527(2020), IF 상위 8.62%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.532(2021), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)

34. S. Hussain, D. Vikraman, G. Nazir, M. T. Mehran, F. Shahzad, K. M. Batoo, H. S. Kim, and J. Jung, 2022 (Aug), ’Development of binder-free three-dimensional honeycomb-like porous ternary layered double hydroxide-embedded MXene sheets for bi-functional overall water splitting reactions’, Nanomaterials 12(16), 2886.

IF : 4.324(2019), IF 상위 28.185%(89/314) SCIE (Materials Science, Multidisciplinary 분야)

IF : 5.076(2020), IF 상위 21.562%(35/160) SCIE (Physics, Applied 분야)

IF : 5.719(2021), IF 상위 22.671%(37/161) SCIE (Physics, Applied  분야)

33. J. Theerthagiri, K. Karuppasamy, S. J. Lee, R. Shwetharani, H. S. Kim, S. K. K. Pasha, M. Ashokkumar, and M. Y. Choi, 2022 (Aug), ‘Fundamentals and comprehensive insights on pulsed laser synthesis of advanced materials for diverse photo- and electrocatalytic applications’, Light: Science and Applications 11, 250.

IF : 13.714(2019), IF 상위 2.577%(3/97) SCIE (Optics 분야)

IF : 17.782(2020), IF 상위 2.525%(3/99) SCIE (Optics 분야)

IF : 20.257(2021), IF 상위 2.475%(3/101) SCIE (Optics 분야)

32. C. Bathula, H. Opoku, V. G. Sree, A. Kadam, A. Meena, R. R. Palem, M. Misra, Mu. Naushad, H. Im, and H. S. Kim, 2022 (Aug), ’Optoelectronic and DFT investigation of thienylenevinylene based materials for thin film transistors’, Journal of Molecular Liquids 360, 119462.

IF : 5.065(2019), IF 상위 9.459%(4/37) SCIE (Physics, Atomic, Molecular & Chemical 분야)

IF : 6.165(2020), IF 상위 9.459%(4/37) SCIE (Physics, Atomic, Molecular & Chemical 분야)

IF : 6.633(2021), IF 상위 15.278%(6/36) SCIE (Physics, Atomic, Molecular & Chemical 분야)

31. H. Liu, S. Hussain, Z. Abbas, J. Lee, S. H. A. Jaffery, J. Jung, H. S. Kim, D. Vikraman, and J. Kang, 2022 (Jul), ’Fabrication of high-performance solar cells and X-ray detectors using MoX2@CNT nanocomposite-tuned perovskite layers’, ACS Applied Materials & Interfaces 14(29), 33626-33640. 

IF : 8.758(2019), IF 상위 10.350%(33/314) SCIE (Materials Science, Multidisciplinary 분야)

IF : 9.229(2020), IF 상위 13.024%(44/334) SCIE (Materials Science, Multidisciplinary 분야)

IF : 10.383(2021), IF 상위 14.058%(49/345) SCIE (Materials Science, Multidisciplinary 분야)


30. P. Santhoshkumar, D. Vikraman, S. Hussain, K. Karuppasamy, A. Kathalingam, H. C. Park, and H. S. Kim, 2022 (Jul), ‘One-pot hydrothermal synthesis of MgV2O5-NC porous composite for hybrid supercapacitors with enhanced storage properties’, Jounal of Alloys and Compounds 908, 164598. 

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

29. S. Hussain, H. Liu, M. Hussain, M. T. Mehran, H. S. Kim, J. Jung, D. Vikraman, and J. Kang, 2022 (Jul), ’Development of MXene/WO3 embedded PEDOT:PSS hole transport layers for highly efficient perovskite solar cells and X-ray detectors’, International Journal of Energy Research 46(9), 12485-12497.

IF : 3.741(2019), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 5.164(2020), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야) 

IF : 4.672(2021), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

28. H. Liu, S. Hussain, D. Vikraman, J. Lee, S. H. A. Jaffery, J. Jung, H. S. Kim, and J. Kang, 2022 (Jun), ’Fabrication of InGaZnO-SnO2/PCBM hybrid electron transfer layer for high-performance Perovskite solar cell and X-ray detector’, Journal of Alloys and Compounds 906, 164399.

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

27. M. Faizan, S. Hussain, M. Islam, J. Y. Kim, D. Han, J. H. Bae, D. Vikraman, B. Ali, S. Abbas, H. S. Kim, A. N. Singh, J. Jung, and K. W. Nam, 2022 (Jun), ’MoO3@MoS2 Core-Shell Structured Hybrid Anode Materials for Lithium-Ion Batteries’, Nanomaterials 12(12), 2008.

IF : 4.324(2019), IF 상위 28.185%(89/314) SCIE (Materials Science, Multidisciplinary 분야)

IF : 5.076(2020), IF 상위 21.562%(35/160) SCIE (Physics, Applied 분야)

IF : 5.719(2021), IF 상위 22.671%(37/161) SCIE (Physics, Applied  분야)

26. R. R. Palem, S. Ramesh, I. Rabani, G. Shimoga, C. Bathula, H. S. Kim, Y. S. Seo, H. S. Kim, and Soo-Hong Lee, 2022 (Jun), ’Microstructurally assembled transition metal oxides with cellulose nanocrystals for high-performance supercapacitors’, Journal of Energy Storage 50, 104712. 

IF : 3.762(2019), IF 상위 39.732%(45/112) SCIE (Energy & Fuels 분야)

IF : 6.583(2020), IF 상위 24.123%(28/114) SCIE (Energy & Fuels 분야)

IF : 8.907(2021), IF 상위 18.908%(23/119) SCIE (Energy & Fuels 분야)

25. R. R. Palem, I. Rabani, S. Ramesh, G. Shimoga, S. H. Lee, H. S. Kim, Y. S. Seo, H. S. Kim, and C. Bathula, 2022 (Jun), ’Ultrasonically decorated zinc cobaltate on nanocellulose interface for supercapacitors’, Surfaces and Interfaces 30, 101915.

IF : 3.724(2019), IF 상위 16.667%(4/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 4.837(2020), IF 상위 16.667%(4/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 6.137(2021), IF 상위 12.500%(3/20) SCIE (Materials Science, Coatings & Films 분야)

24. P. Santhoshkumar, B. Thirumalraj, B. Sriram, K. Karuppasamy, D. Vikraman, A. Kathalingam, H. Choe, and H. S. Kim, 2022 (Jun), ‘Mesoporous SnSe2-grafted N-doped carbon composites with integrated flaky structure for electrochemical sensing of carbendazim’, Ceramics International 48(11), 16023-16032. 

IF : 3.830(2019), IF 상위 5.357%(2/28) SCIE (Materials Science, Ceramics 분야)

IF : 4.527(2020), IF 상위 8.62%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.532(2021), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)

23. D. Vikramana, S. S. Patil, S. Hussain, M. Hussain, K. Karuppasamy, P. Santhoshkumar, J. H. Lee, K. Lee, J. Jung, and H. S. Kim, 2022 (May), ’Decoration of X2C nanoparticles on CdS nanostructures for highly efficient photocatalytic wastewater treatment under visible light’, Applied Surface Science 583, 152533. 

IF : 6.182(2019), IF 상위 2.381%(1/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 6.707(2020), IF 상위 2.38%(1/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 7.392(2021), IF 상위 2.632%(1/19) SCIE (Materials Science, Coatings & Films 분야)

22. R. R. Palem, G. Shimoga, I. Rabani, C. Bathula, Y. S. Seo, H. S. Kim, S. Y. Kim, and S. H. Lee, 2022 (May), ’Ball-milling route to design hierarchical nanohybrid cobalt oxide structures with cellulose nanocrystals interface for supercapacitors’, International Journal of Energy Research 46(6), 8398-8412. 

IF : 3.741(2019), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 5.164(2020), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야) 

IF : 4.672(2021), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

21. K. Karuppasamy, B. Sharma, D. Vikraman, J. H. Lee, M. Islam, P. Santhoshkumar, and H. S. Kim, 2022 (Apr), ‘Metal organic framework-derived Ni4Mo/MoO2@C composite nanospheres as the sensing materials for hydrogen sulfide detection’, Journal of Alloys and Compounds 900, 163421. 

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

20. V. Strenzke, J. M. Meyer, I. Grandt-Ionita, M. Prada, H. S. Kim, M. Heilmann, J. M. J. Lopes, L. Tiemann, and R. H. Blick, 2022 (Apr), ‘Nuclear-induced dephasing and signatures of hyperfine effects in isotopically purified 13C graphene’, Physical Review B 105(14), 144303.

IF : 3.575(2019), IF 상위 24.839%(39/155) SCIE (Physics, Applied 분야)

IF : 4.036(2020), IF 상위 25.312%(41/160) SCIE (Physics, Applied 분야) 

IF : 3.908(2021), IF 상위 31.988%(52/161) SCIE (Physics, Applied 분야)

19. K. Karuppasamy, D. Vikraman, S. Hussain, P. Santhoshkumar, R. Bose, P. Sivakumar, A. Alfantazi, J. Jung, and H. S. Kim, 2022 (Apr), ’Unveiling the redox electrochemistry of MOF-derived fcc-NiCo@GC polyhedron as an advanced electrode material for boosting specific energy of the supercapattery’, Small 18(14), 2107284. 

IF : 11.459(2019), IF 상위 6.129%(10/155) SCIE (Physics, Applied 분야)

IF : 13.281(2020), IF 상위 6.562%(11/160) SCIE (Physics, Applied 분야) 

IF : 15.153(2021), IF 상위 6.522%(11/161) SCIE (Physics, Applied 분야) 

18. C. J. Yim, J. Y. Choy, H. K. Youi, J. H. Hwang, E. B. Jo, J. H. Lee, and H. S. Kim, 2022 (Apr), ‘Dilute Polymerization of Aniline on PDMS Substrate via Surface Modification Using (3-Aminopropyl)Triethoxysilane for Stretchable Strain Sensor’, Sensors 22(7), 2741. 

IF : 3.275(2019), IF 상위 22.656%(15/64) SCIE (Instruments & Instrumentation 분야)

IF : 3.576(2020), IF 상위 21.094%(14/64) SCIE (Instruments & Instrumentation 분야) 

IF : 3.847(2021), IF 상위 28.906%(19/64) SCIE (Instruments & Instrumentation 분야)

17. A. Jana, C. Bathula, Y. Park, A. Kadam, V. G. Sree, S. Ansar, H. S. Kim, and H. Im, 2022 (Apr), ‘Facile synthesis and optical study of organic-inorganic lead bromide perovskite-clay (kaolinite, montmorillonite, and halloysite) composites’, Surfaces and Interfaces 29, 101785.

IF : 3.724(2019), IF 상위 16.667%(4/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 4.837(2020), IF 상위 16.667%(4/21) SCIE (Materials Science, Coatings & Films 분야) 

IF : 6.137(2021), IF 상위 12.500%(3/20) SCIE (Materials Science, Coatings & Films 분야)

16. D. Vikraman, H. Liu, S. Hussain, S. H. A. Jaffery, K. Karuppasamy, E. B. Jo, Z. Abbas, J. Jung, J. Kang, and H. S. Kim, 2022 (Apr), ’Impact of molybdenum dichalcogenides on the active and hole-transport layers for perovskite solar cells, X-ray detectors, and photodetectors’, Small 18(13), 2104216. 

IF : 11.459(2019), IF 상위 6.129%(10/155) SCIE (Physics, Applied 분야)

IF : 13.281(2020), IF 상위 6.562%(11/160) SCIE (Physics, Applied 분야) 

IF : 15.153(2021), IF 상위 6.522%(11/161) SCIE (Physics, Applied 분야) 

15. A. Kathalingam, S. Ramesh, P. Santhoshkumar, H. S. Kim, H. C. Park, and H. S. Kim, 2022 (Mar), ‘MnO2/Co3O4 with N and S co-doped graphene oxide bimetallic nanocomposite for hybrid supercapacitor and photosensor applications’, International Journal of Energy Research 46(4), 4494-4505. 

IF : 3.741(2019), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 5.164(2020), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야) 

IF : 4.672(2021), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

14. A. Kathalingam, S. Valanarasu, A. M. Ali, M. A. Sayed, W. C. Yang, and H. S. Kim, 2022 (Mar), ‘Photosensing effect of indium-doped ZnO thin films and its heterostructure with silicon’, Journal of Asian Ceramic Societies 10(1), 108-119.

IF : 2.653(2019), IF 상위 19.643%(6/28) SCIE (Materials Science, Ceramics 분야)

IF : 3.125(2020), IF 상위 18.966%(6/29) SCIE (Materials Science, Ceramics 분야) 

IF : 2.546(2021), IF 상위 25.862%(8/29) SCIE (Materials Science, Ceramics 분야) 

13. D. Vikraman, S. Hussain, H. Liu, S. H. A. Jaffery, K. Karuppasamy, J. H. Lee, A. Kathalingam, J. Jung, and H. S. Kim, 2022 (Mar), ’Fullerene-free, MoTe2 atomic layer blended bulk heterojunctions for improved organic solar cell and photodetector performance’, Journal of Materials Research and Technology 17, 2875-2887.

IF : 5.289(2019), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering  분야)

IF : 5.039(2020), IF 상위 10.625%(9/80) SCIE (Metallurgy & Metallurgical Engineering  분야) 

IF : 6.267(2021), IF 상위 9.494%(8/79 ) SCIE (Metallurgy & Metallurgical Engineering 분야)

12. L. K. Sellappan, S. Anandhavelu, M. Doble, G. Perumal, J. H. Jeon, D. Vikraman, and H. S. Kim, 2022 (Mar), ‘Biopolymer film fabrication for skin mimetic tissue regenerative wound dressing applications‘, International Journal of Polymeric Materials and Polymeric Biomaterials 71(3), 196-207. 

IF : 1.982(2019), IF 상위 44.382%(40/89) SCIE (Polymer Science 분야)

IF : 2.604(2020), IF 상위 48.333%(44/90) SCIE (Polymer Science 분야) 

IF : 3.221(2021), IF 상위 40.556%(37/90) SCIE (Polymer Science 분야) 

11. I. Rabani, C. Bathula, R. Zafar, M. S. Tahir, Y. J. Park, H. S. Kim, M. Naushad, and Y. S. Seo, 2022 (Feb), ’Visible light-driven photocatalytic rapid degradation of organic contaminants engaging manganese dioxide-incorporated iron oxide three dimensional nanoflowers’, Journal of Colloid and Interface Science 608, 2347-2357. 

IF : 7.489(2019), IF 상위 19.182%(31/159) SCIE (Chemistry, Physical 분야)

IF : 8.128(2020), IF 상위 19.444%(32/162) SCIE (Chemistry, Physical 분야) 

IF : 9.965(2021), IF 상위 19.697%(33/165) SCIE (Chemistry, Physical 분야)

10. D. Vikraman, S. Hussain, K. Karuppasamy, A. Kathalingam, E. B. Jo, A. Sanmugam, J. Jung, and H. S. Kim, 2022 (Feb), ’Engineering the active sites tuned MoS2 nanoarray structures by transition metal doping for hydrogen evolution and supercapacitor applications’, Journal of Alloys and Compounds 893, 162271. 

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

9. S. Ramesh, K. Karuppasamy, D. Vikraman, P. Santhoshkumar, C. Bathula, R. R. Palem, A. Kathalingam, H. S. Kim, J. H. Kim, and H. S. Kim, 2022 (Feb), ’Sheet-like morphology CuCo2O4 bimetallic nanoparticles adorned on graphene oxide composites for symmetrical energy storage applications’, Journal of Alloys and Compounds 892, 162182. 

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

8. S. Hussain, D. Vikraman, T. Mehran, M. Hussain, G. Nazir, S. A. Patil, H. S. Kim, and J. Jung, 2022 (Feb), ’Ultrasonically derived WSe2 nanostructure embedded MXene hybrid composites for supercapacitors and hydrogen evolution reactions’, Renewable Energy 185, 585-597.  

IF : 6.274(2019), IF 상위 16.518%(19/112) SCIE (Energy & Fuels 분야)

IF : 8.001(2020), IF 상위 13.596%(16/114) SCIE (Energy & Fuels 분야) 

IF : 8.634(2021), IF 상위 20.588%(25/119) SCIE (Energy & Fuels 분야) 

7. A. T. A. Ahmed, C. Bathula, R. Soni, H. S. Kim, H. Im, S. W. Lee, W. K. Kim, S. Gedi, and A. N. Kadam, 2022 (Feb), ’Nanostructurally engineered TiO2 embedded Mentha aquatica biowaste derived carbon for supercapacitor applications’, Chemosphere 289, 133197. 

IF : 5.778(2019), IF 상위 10.755%(29/265) SCIE (Environmental Sciences 분야)

IF : 7.086(2020), IF 상위 10.766%(30/274) SCIE (Environmental Sciences 분야) 

IF : 8.943(2021), IF 상위 11.649%(33/279) SCIE (Environmental Sciences 분야)

6. V. G. Sree, C. Bathula, A. N. Kadam, MK Ravindra, KM Mahadevan, J. I. Sohn, H. S. Kim, and H. Im, 2021 (Feb), ‘Halogen free solvent processed light-emitting diodes achieving EQE nearly 25% for imidazole-based host materials synthesized by ball milling’, Nano Energy 92, 106753. 

IF : 16.602(2019), IF 상위 4.299%(14/314) SCIE (Materials Science, Multidisciplinary 분야)

IF : 17.881(2020), IF 상위 4.641%(16/334) SCIE (Materials Science, Multidisciplinary 분야)

IF : 19.069(2021), IF 상위 5.058%(18/346) SCIE (Materials Science, Multidisciplinary 분야)

5. C. Bathula, I. Rabani, A. Kadam, H. Opoku, S. A. Patil, N. K. Shreshta, J. H. Hwang, Y. S. Seo, and H. S. Kim, 2022 (Jan), ‘Sonochemically exfoliated polymer-carbon nanotube interface for high performance supercapacitors’, Journal of Colloid and Interface Science 606, 1792-1799. 

IF : 7.489(2019), IF 상위 19.182%(31/159) SCIE (Chemistry, Physical 분야)

IF : 8.128(2020), IF 상위 19.444%(32/162) SCIE (Chemistry, Physical 분야)

IF : 9.965(2021), IF 상위 19.697%(33/165) SCIE (Chemistry, Physical 분야)

4. J. Y. Choy, E. B. Jo, C. J. Yim, H. K. Youi, J. H. Hwang, J. H. Lee, and H. S. Kim, 2022 (Jan), ’Improvement in Strain Sensor Stability by Adapting the Metal Contact Layer’, Sensors 22(2), 630. 

IF : 3.275(2019), IF 상위 22.656%(15/64) SCIE (Instruments & Instrumentation 분야)

IF : 3.576(2020), IF 상위 21.094%(14/64) SCIE (Instruments & Instrumentation 분야)

IF : 3.847(2021), IF 상위 28.906%(19/64) SCIE (Instruments & Instrumentation 분야)

3. P. Santhoshkumar, T. Hussain, D. Vikraman, K. Karuppasamy, S. Hussain, M. Chokkalingam, V. Hiremath, J. G. Seo, and H. S. Kim, 2022 (Jan), ’Highly porous, hierarchical peanut-like Ecandrewsite binary metal oxide nanostructures for the high-efficiency detoxification of organic dyes from wastewater’, Ceramics International 48(1), 1057-1067. 

IF : 3.830(2019), IF 상위 5.357%(2/28) SCIE (Materials Science, Ceramics 분야)

IF : 4.527(2020), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.532(2021), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)

2. P. Santhoshkumar, S. Hussain, D. Vikraman, K. Karuppasamy, T. Hussain, S. Ramesh, H. S. Kim, and H. S. Kim, 2022 (Jan), ’Bifunctional iron molybdate as highly effective heterogeneous electro-Fenton catalyst and Li-ion battery anode’, Chemosphere 286, 131846.

IF : 5.778(2019), IF 상위 10.755%(29/265) SCIE (Environmental Sciences 분야)

IF : 7.086(2020), IF 상위 10.766%(30/274) SCIE (Environmental Sciences 분야)

IF : 8.943(2021), IF 상위 11.649%(33/279) SCIE (Environmental Sciences 분야)

1. K. Karuppasamy, D. Vikraman, S. Hussain, G. K. Veerasubramani, P. Santhoshkumar, S. H. Lee, R. Bose, A. Kathalingam, and H. S. Kim, 2022 (Jan), ‘Unveiling a binary metal selenide composite of CuSe polyhedrons/CoSe2 nanorods decorated graphene oxide as an active electrode material for high-performance hybrid supercapacitors’, Chemical Engineering Journal 427, 131535. 

IF : 10.652(2019), IF 상위 2.448%(4/143) SCIE (Engineering, Chemical 분야)

IF : 13.273(2020), IF 상위 2.448%(4/143) SCIE (Engineering, Chemical 분야)

IF : 16.744(2021), IF 상위 2.465%(4/142) SCIE (Engineering, Chemical 분야)

2021

45. P. Santhoshkumar, T. Subburaj, K. Karuppaswamy, A. Kathalingam, D. Vikraman, H. C. Park, and H. S. Kim, 2021 (Dec), ’Elucidation of cube-like red iron oxide @ carbon nanofiber composite as an anode material for high performance lithium‐ion storage’, Journal of Industrial and Engineering Chemistry 104, 22-31.

IF : 5.278(2019), IF 상위 14.336%(21/143) SCIE (Engineering, Chemical 분야)

IF : 6.064(2020), IF 상위 15.734%(23/143) SCIE (Engineering, Chemical 분야)

IF : 6.760(2021), IF 상위 16.549%(24/142) SCIE (Engineering, Chemical 분야)

44. C. Bathula, I. Rabani, S. Ramesh, S. H. Lee, R. R. Palem, A. T. A. Ahmed, H. S. Kim, Y. S. Seo, and H. S. Kim, 2021 (Dec), ’Highly efficient solid-state synthesis of Co3O4 on multiwalled carbon nanotubes for supercapacitors’, Journal of Alloys and Compounds 887, 161307.

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

43. K. Karuppasamy, B. Sharma, D. Vikraman, E. B. Jo, P. Sivakumar, and H. S. Kim, 2021 (Dec), ’Switchable p-n gas response for 3D-hierarchical NiFe2O4 porous microspheres for highly selective and sensitive toluene gas sensors’, Journal of Alloys and Compounds 886, 161281.

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

42. S. Hussain, H. Liu, D. Vikraman, M. Hussain, S. H. A. Jaffery, A. Ali, H. S. Kim, J. W. Kang, and J. Jung, 2021 (Dec), ’Characteristics of Mo2C-CNTs hybrid blended hole transport layer in the perovskite solar cells and X-ray detectors’, Journal of Alloys and Compounds 885, 161039.

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

41. C. Bathula, A. Jana, H. Opoku, H. K. Youi, A. A. Ghfar, A. T. A. Ahmed, and H. S. Kim, 2021 (Dec), ’Interfacial engineering of quasi-2-D formamidinium lead iodide nanosheets for perovskite solar cell by mechanochemical approach’, Surfaces and Interfaces 27, 101551.

IF : 3.724(2019), IF 상위 16.667%(4/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 4.837(2020), IF 상위 16.667%(4/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 6.137(2021), IF 상위 12.500%(3/20) SCIE (Materials Science, Coatings & Films 분야)

40. C. Bathula, A. T. A. Ahmed, A. Kadam, S. Sekar, J. H. Hwang, S. H. Lee, and H. S. Kim, 2021 (Dec), ‘Multi-functional Co3O4 embedded carbon nanotube architecture for oxygen evolution reaction and benzoin oxidation’, Journal of Molecular Liquids 343, 117616.

IF : 5.065(2019), IF 상위 9.459%(4/37) SCIE (Physics, Atomic, Molecular & Chemical 분야)

IF : 6.165(2020), IF 상위 9.459%(4/37) SCIE (Physics, Atomic, Molecular & Chemical 분야)

IF : 6.633(2021), IF 상위 15.278%(6/36) SCIE (Physics, Atomic, Molecular & Chemical 분야)

39. B. Sharma, K. Karuppasamy, D. Vikraman, E. B. Jo, P. Sivakumar, and H. S. Kim, 2021 (Nov), ’Porous, 3D-hierarchical α-NiMoO4 rectangular nanosheets for selective conductometric ethanol gas sensors’, Sensors and Actuators B: Chemical 347, 130615.

IF : 7.100(2019), IF 상위 2.344%(2/64) SCIE (Instruments & Instrumentation 분야)

IF : 7.460(2020), IF 상위 3.906%(3/64) SCIE (Instruments & Instrumentation 분야)

IF : 9.221(2021), IF 상위 2.344%(2/64) SCIE (Instruments & Instrumentation 분야)

38. P. Santhoshkumar, T. Subburaj, A. Kathalingam, K. Karuppaswamy, D. Vikraman, C. J. Yim, H. C. Park, and H. S. Kim, 2021 (Nov), ’Potential core-shell anode material for rechargeable lithium-ion batteries: Encapsulation of titanium oxide nanostructure in conductive polymer’, Journal of Alloys and Compounds 882, 160715.

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

37. P. Sivakumar, D. Vikraman, C. J. Raj, S. Hussain, J. W. Park, H. S. Kim, and H. Jung, 2021 (Nov), ’Hierarchical NiCo/NiO/NiCo2O4 composite formation by solvothermal reaction as a potential electrode material for hydrogen evolutions and asymmetric supercapacitors’, International Journal of Energy Research 45(14), 19947-19961.

IF : 3.741(2019), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 5.164(2020), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 4.672(2021), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

36. S. Ramesh, Y. J. Lee, K. H. Shin, L. Sanjeeb, K. Karuppasamy, D. Vikraman, A. Kathalingam, H. S. Kim, H. S. Kim, and J. H. Kim, 2021 (Oct), ’Effect of ruthenium oxide on the capacitance and gas-sensing performances of cobalt oxide @nitrogen-doped graphene oxide composites’, International Journal of Energy Research 45(13), 19547-19559.

IF : 3.741(2019), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 5.164(2020), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 4.672(2021), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

35. S. Hussain, I. Rabani, D. Vikraman, T. Mehran, F. Shahzad, Y. S. Seo, H. S. Kim, and J. Jung, 2021 (Oct), ’Designing the MXene/molybdenum diselenide hybrid nanostructures for high-performance symmetric supercapacitor and hydrogen evolution applications’, International Journal of Energy Research 45(13), 18770-18785.

IF : 3.741(2019), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 5.164(2020), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 4.672(2021), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

34. J. Theerthagiri, S. J. Lee, K. Karuppasamy, J. H. Park, Y. S. Yu, M. L. A. Kumari, S. Chandrasekaran, H. S. Kim, and M. Y. Choi, 2021 (Oct), ’Fabrication strategies and surface tuning of hierarchical gold nanostructures for electrochemical detection and removal of toxic pollutants’, Journal of Hazardous Materials 420, 126648.

IF : 9.038(2019), IF 상위 2.830%(8/265) SCIE (Environmental Sciences 분야)

IF : 10.588(2020), IF 상위 3.467%(10/274) SCIE (Environmental Sciences 분야)

IF : 14.224(2021), IF 상위 3.047%(9/279) SCIE (Environmental Sciences 분야)

33. K. Karuppasamy, D. Vikraman, K. W. Jang, S. Ravi, W. H. Tanveer, R. Bose, M. Thandavarayan, and H. S. Kim, 2021 (Oct), ‘Bio-inspired proton conducting phytagel derived zwitterionic complex membranes for fuel cells’, International Journal of Energy Research 45(12), 17120-17132.

IF : 3.741(2019), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 5.164(2020), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 4.672(2021), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

32. S. Ramesh, K. Karuppasamy, A. Sivasamy, H. S. Kim, H. M. Yadav, and H. S. Kim, 2021 (Oct), ‘Core shell nanostructured of Co3O4@RuO2 assembled on nitrogen-doped graphene sheets electrode for an efficient supercapacitor application’, Journal of Alloys and Compounds 877, 160297.

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

31. K. Karuppasamy, D. Vikraman, T. Hussain, S. Hussain, R. Bose, P. Sivakumar, A. P. Murthy, A. Alfantazi, and H. S. Kim, 2021 (Oct), ’Ternary Zn1-xNixSe nanostructures as efficient photocatalysts for detoxification of hazardous Congo red, methyl orange, and chrome yellow dyes in wastewater sources’, Environmental Research 201, 111587.

IF : 5.715(2019), IF 상위 7.513%(15/193) SCIE (Public, Environmental & Occupational Health 분야)

IF : 6.498(2020), IF 상위 7.598%(16/204) SCIE (Public, Environmental & Occupational Health 분야)

IF : 8.431(2021), IF 상위 9.762%(21/210) SCIE (Public, Environmental & Occupational Health 분야)

30. S. Hussain, I. Rabani, D. Vikraman, A. Feroze, M. Ali, Y. S. Seo, W. S. Song, K. S. An, H. S. Kim, S. H. Chun, and J. Jung, 2021 (Oct), ’MoS2@X2C (X = Mo or W) hybrids for enhanced supercapacitor and hydrogen evolution performances’, Chemical Engineering Journal 421, 127843.

IF : 10.652(2019), IF 상위 2.448%(4/143) SCIE (Engineering, Chemical 분야)

IF : 13.273(2020), IF 상위 2.448%(4/143) SCIE (Engineering, Chemical 분야)

IF : 16.744(2021), IF 상위 2.727%(2/55) SCIE (Engineering, Chemical 분야)

29. R. Bose, K. Karuppasamy, P. Arunkumar, G. K. Veerasubramani, S. Gayathri, P. Santhoshkumar, D. Vikraman, J. H. Han, H. S. Kim, and A. Alfantazi, 2021 (Sept), ’ Self-supportive bimetallic selenide heteronanostructures as a high-efficiency electro(pre)catalyst for water oxidation’, ACS Sustainable Chemistry & Engineering 9(38),  13114-13123.

IF : 7.632(2019), IF 상위 5.245%(8/143) SCIE (Engineering, Chemical 분야)

IF : 8.198(2020), IF 상위 9.441%(14/143) SCIE (Engineering, Chemical 분야)

IF : 9.224(2021), IF 상위 8.803%(13/142) SCIE (Engineering, Chemical 분야)

28. S. Ramesh, K. Karuppasamy, D. Vikraman, E. H. Kim, L. Sanjeeb, Y. J. Lee, H. S. Kim, J. H. Kim, and H. S. Kim, 2021 (Sept), ’Hierarchical Co3O4 decorated nitrogen-doped graphene oxide nanosheets for energy storage and gas sensing applications’, Journal of Industrial and Engineering Chemistry 101, 253-261.

IF : 5.278(2019), IF 상위 14.336%(21/143) SCIE (Engineering, Chemical 분야)

IF : 6.064(2020), IF 상위 15.734%(23/143) SCIE (Engineering, Chemical 분야)

IF : 6.760(2021), IF 상위 16.549%(24/142) SCIE (Engineering, Chemical 분야)

27. S. Hussain, D. Vikraman, M. Hussain, H. S. Kim, and J. Jung, 2021 (Sept), ’Highly Active Mo2C@WS2 Hybrid Electrode for Enhanced Hydrogen Evolution Reaction’, Catalysts 11(9), 1060.

IF : 3.520(2019), IF 상위 40.566%(65/159) SCIE (Chemistry, Physical 분야)

IF : 4.146(2020), IF 상위 41.049%(67/162) SCIE (Chemistry, Physical 분야)

IF : 4.501(2021), IF 상위 42.638%(70/163) SCIE (Chemistry, Physical 분야)

26. S. Hussain, S. Muhammad, M. Faizan, K. W. Nam, H. S. Kim, D. Vikraman, and J. Jung, 2021 (Sept), ‘Hierarchical Mo2C@CNT hybrid structure formation for the improved lithium-ion battery storage performance’, Nanomaterials 11(9), 2195.

IF : 4.324(2019), IF 상위 28.185%(89/314) SCIE (Materials Science, Multidisciplinary 분야)

IF : 5.742(2020), IF 상위 21.562%(35/160) SCIE (Physics, Applied 분야)

IF : 5.719(2021), IF 상위 22.671%(37/161) SCIE (Physics, Applied 분야)

25. V. G. Sree, C. Bathula, H. K. Youi, H. S. Kim, J. I. Sohn, and H. S. Im, 2021 (Sept), ’ Photophysical and DFT investigation of imidazole-based hole transporting materials for phosphorescent OLEDs with high current efficiency’, Journal of Molecular Liquids 338, 116708.

IF : 5.065(2019), IF 상위 9.459%(4/37) SCIE (Physics, Atomic, Molecular & Chemical 분야)

IF : 6.165(2020), IF 상위 9.459%(4/37) SCIE (Physics, Atomic, Molecular & Chemical 분야)

IF : 6.633(2021), IF 상위 15.278%(6/36) SCIE (Physics, Atomic, Molecular & Chemical 분야)

24. I. Rabani, K. Karuppasamy, D. Vikraman, Z. U. Hag, H. S. Kim, and Y. S. Seo, 2021 (Sept), ‘Hierarchical structured nano-polyhedrons of CeO2@ZIF-8 composite for high performance supercapacitor applications’, submitted to Journal of Alloys and Compounds 875, 160074.

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

23. M. Faizan, S. Hussain, D. Vikraman, B. Ali, H. S. Kim, J. Jung, and K. W. Nam, 2021 (Sept), ’MoS2@Mo2C hybrid nanostructures formation as an efficient anode material for lithium-ion batteries’, Journal of Materials Research and Technology 14, 2382-2393.

IF : 5.289(2019), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.039(2020), IF 상위 10.625%(9/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.267(2021), IF 상위 9.494%(8/79 ) SCIE (Metallurgy & Metallurgical Engineering 분야)

22. S. Ramesh, K. Karuppasamy, Y. Haldoari, A. Sivasamy, H. S. Kim and H. S. Kim, 2021 (Sept), ‘Hexagonal nanostructured cobalt oxide @ nitrogen doped multiwalled carbon nanotubes/polypyyrole composite for supercapacitor and electrochemical glucose sensor’, Colloids and Surfaces B-Biointerfaces 205, 111840.

IF : 4.389(2019), IF 상위 16.197%(12/71) SCIE (Biophysics 분야)

IF : 5.268(2020), IF 상위 14.789%(11/71) SCIE (Biophysics 분야)

IF : 5.999(2021), IF 상위 14.583%(11/72) SCIE (Biophysics 분야)

21. D. Vikraman, S. Hussain, I. Rabani, A. Feroze, M. Ali, Y. S. Seo, S. H. Chun, J. Jung, and H. S. Kim, 2021 (Sept), ‘Engineering MoTe2 and Janus SeMoTe nanosheet structures: First-principles roadmap and practical uses in hydrogen evolution reactions and symmetric supercapacitors’, Nano Energy 87, 106161.

IF : 16.602(2019), IF 상위 4.299%(14/314) SCIE (Materials Science, Multidisciplinary 분야)

IF : 17.881(2020), IF 상위 4.641%(16/334) SCIE (Materials Science, Multidisciplinary 분야)

IF : 19.069(2021), IF 상위 5.058%(18/346) SCIE (Materials Science, Multidisciplinary 분야)

20. A. Kathalingam, S. Valanarasu, S. Ramesh, H. S. Kim, and H. S. Kim, 2021 (Aug), ’Photoelectrochemical solar cell study of electrochemically synthesized Cd1-xZnxTe thin films’, Solar Energy 224, 923-929.

IF : 4.608(2019), IF 상위 30.804%(35/112) SCIE (Energy & Fuels 분야)

IF : 5.742(2020), IF 상위 32.895%(38/114) SCIE (Energy & Fuels 분야)

IF : 7.188(2021), IF 상위 30.672%(37/119) SCIE (Energy & Fuels 분야)


19. D. Vikraman, S. Hussain, M. Ali, K. Karuppasamy, P. Santhoshkumar, J. H. Hwang, J. Jung, and H. S. Kim, 2021 (Jul), ’Theoretical evaluation and experimental investigation of layered 2H/1T-phase MoS2 and its reduced graphene-oxide hybrids for hydrogen evolution reactions’, Journal of Alloys and Compounds 868, 159272.

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 6.371(2021), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)



18. S. Hussain, M. Faizan, D. Vikraman, I. Rabani, B. Ali, H. S. Kim, J. Jung, and K. W. Nam, 2021 (Jul), ’Eutectoid WxC embedded WS2 nanosheets as a hybrid composite anode for lithium-ion batteries’, Ceramics International 47(13), 18646-18655.

IF : 3.830(2019), IF 상위 5.357%(2/28) SCIE (Materials Science, Ceramics 분야)

IF : 4.527(2020), IF 상위 8.62%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.532(2021), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)



17. G. Kathiresan, K. Vijayakumar, A. P. Sundarrajan, H. S. Kim, and K. Adaikalam, 2021 (Jul), ‘Photocatalytic degradation efficiency of ZnO, GO and PVA nanoadsorbents for crystal violet, methylene blue and trypan blue dyes’, Optik 238, 166671.

IF : 2.187(2019), IF 상위 46.907%(46/97) SCIE (Optics 분야)

IF : 2.443(2020), IF 상위 46.97%(47/99) SCIE (Optics 분야)

IF : 2.840(2021), IF 상위 41.089%(42/101) SCIE (Optics 분야)


16. A. Kathalingam, K. P. Marimuthu, K. Karuppasamy, Y. S. Chae, H. Lee, H. C. Park, and H. S. Kim, 2021 (Jun), ‘Structural and mechanical characterization of platinum thin films prepared electrochemically on ITO/glass substrate’, Metals and Materials International 27(6), 1554-1564.

IF : 1.990(2019), IF 상위 29.747%(24/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 3.642(2020), IF 상위 39.27%(16/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 3.451(2021), IF 상위 39.27%(190/345) SCIE (Metallurgy & Metallurgical Engineering 분야)


15. K. Karuppasamy, P. Santhoshkumar, T. Hussain, D. Vikraman, C. J. Yim, S. Hussain, P. Shanmugam, A. Alfantazi, S. Manickam, and H. S. Kim, 2021 (Jun), ‘Influence of Selenium Precursors on the Formation of Iron Selenide Nanostructures (FeSe2): Efficient Electro-Fenton Catalysts for Detoxification of Harmful Organic Dyestuffs’, Chemosphere 272, 129639.

IF : 5.778(2019), IF 상위 10.755%(29/265) SCIE (Environmental Sciences 분야)

IF : 7.086(2020), IF 상위 10.766%(30/274) SCIE (Environmental Sciences 분야)

IF : 8.943(2021), IF 상위 11.649%(33/279) SCIE (Environmental Sciences 분야)


14. C. Bathula, I. Rabani, H. Opoku, H. K. Youi, V. G. Sree, S. D. Mane, Y. S. Seo, and H. S. Kim, 2021 (May), ’Efficient synthesis of acetylene-bridged carbazole-based dimer for electrochemical energy storage: Experimental and DFT studies’, Journal of Electroanalytical Chemistry 889, 115225.

IF : 3.807(2019), IF 상위 19.186%(17/86) SCIE (Chemistry, Analytical 분야)

IF : 4.464(2020), IF 상위 23.49%(20/83) SCIE (Chemistry, Analytical 분야)

IF : 4.464(2021), IF 상위 23.563%(21/87) SCIE (Chemistry, Analytical 분야)


13. D. Vikraman, I. Rabani, S. Hussain, K. Sundaram, S. Ramesh, H. S. Kim, Y. S. Seo, J. Jung, and H. S. Kim, 2021 (May), ’Mixed-phase MoS2 decorated reduced graphene oxide hybrid composites for efficient symmetric supercapacitors’, International Journal of Energy Research 45(6), 9193-9209.

IF : 3.741(2019), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 5.164(2020), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)

IF : 4.672(2021), IF 상위 1.471%(1/34) SCIE (Nuclear Science & Technology 분야)


12. S. Hussain, K. Akbar, D. Vikraman, I. Rabani, W. Song, K. S. An, H. S. Kim, S. H. Chun, and J. Jung, 2021 (May), ‘Experimental and theoretical insights to demonstrate the hydrogen evolution activity of layered platinum dichalcogenides electrocatalysts’, Journal of Materials Research and Technology 12, 385-398.

IF : 5.289(2019), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.039(2020), IF 상위  9.62%(9/80) SCIE(Metallurgy & Metallurgical Engineering 분야)

IF : 6.267(2021), IF 상위 9.494%(8/79 ) SCIE (Metallurgy & Metallurgical Engineering 분야)


11. I. Rabani, R. Zafar, K. Subhalaxmi, H. S. Kim, C. Bathula, and Y. S. Seo, 2021 (Apr), ‘A facile mechanochemical preparation of Co3O4@g-C3N4 for application in supercapacitors and degradation of organic pollutants in water’, Journal of Hazardous Materials 407, 124360.

IF : 9.038(2019), IF 상위 2.830%(8/265) SCIE (Environmental Sciences 분야)

IF : 10.558(2020), IF 상위 3.47%(10/274) SCIE (Environmental Sciences 분야)

IF : 14.224(2021), IF 상위 3.047%(9/279) SCIE (Environmental Sciences 분야)


10. D. Vikraman, H. Liu, S. Hussain, K. Karuppasamy, H. K. Youi, J. Jung, J. Kang, and H. S. Kim, 2021 (Mar), ’Influence of morphological tuned nanostructure hybrid layers on efficient bulk heterojunction organic solar cell and X-ray detector performances’, Applied Surface Science 543, 148863. 

IF : 6.182(2019), IF 상위 2.381%(1/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 6.707(2020), IF 상위 2.38%(1/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 7.392(2021), IF 상위 2.632%(1/19) SCIE (Materials Science, Coatings & Films 분야)


9. C. Bathula, I. Rabani, S. Sekar, H. K. Youi, J. Y. Choy, A. Kadam, N. K. Shretha, Y. S. Seo, and H. S. Kim, 2021 (Mar), ‘Enhanced removal of organic dye by activated carbon decorated TiO2 nanoparticles from Mentha Aquatica leaves via ultrasonic approach’, Ceramics International 47(6), 8732-8739.

IF : 3.830(2019), IF 상위 5.357%(2/28) SCIE (Materials Science, Ceramics 분야)

IF : 4.527(2020), IF 상위 8.62%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.532(2021), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)


8. A. Kathalingam, S. Valanarasu, T. Ahamad, S. M. Alshehri, and H. S. Kim, 2021 (Mar), ’Spray pressure variation effect on the properties of CdS thin films for photodetector applications’, Ceramics International 47(6), 7608-7616.

IF : 3.830(2019), IF 상위 5.357%(2/28) SCIE (Materials Science, Ceramics 분야)

IF : 4.527(2020), IF 상위 8.62%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.532(2021), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)


7. K. Karuppasamy, I. Rabani, D. Vikraman, C. Bathula, J. Theerthagiri, R. Bose, C. J. Yim, A. Kathalingam, Y. S. Seo, and H. S. Kim, 2021 (Mar), ‘ZIF-8 templated assembly of La3+-anchored ZnO distorted nano-hexagons as an efficient active photocatalyst for the detoxification of rhodamine B in water’, Environmental Pollution 272, 116018.

IF : 6.793(2019), IF 상위 7.736%(21/265) SCIE (Environmental Sciences 분야)

IF : 8.071(2020), IF 상위 8.21%(23/274) SCIE (Environmental Sciences 분야)

6. T. Jayaraman, A. P. Murthy, S. J. Lee, K. Karuppasamy, S. R. Arumugam, Y. Yu, M. M. Hanafiah, H. S. Kim, V. Mittal, and M. Y. Choi, 2021 (Feb), ‘Recent Progress on Synthetic Strategies and Applications of Transition Metal Phosphides in Energy Storage and Conversion’, Ceramics International 47(4), 4404-4425.

IF : 3.830(2019), IF 상위 5.357%(2/28) SCIE (Materials Science, Ceramics 분야)

IF : 4.527(2020), IF 상위 8.62%(3/29) SCIE (Materials Science, Ceramics 분야)

IF : 5.532(2021), IF 상위 8.621%(3/29) SCIE (Materials Science, Ceramics 분야)


5. A. Kathalingam, H. M. S. Ajmal, D. Vikraman, S. D. Kim, H. C. Park, and H. S. Kim, 2021 (Feb), ’Graphene quantum dots-wrapped vertically aligned zinc oxide nanorods arrays for photosensing application’, Journal of Alloys and Compounds 853, 157025. 

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

4. D. Vikraman, S. Hussain, S. A. Patil, L. Truong, A. A. Arbab, S. H. Jeong, S. H. Chun, J. Jung, and H. S. Kim, 2021 (Feb), ‘Engineering MoSe2/WS2 hybrids to replace the scarce platinum electrode for hydrogen evolution reactions and dye-sensitized solar cells’, ACS Applied Materials & Interfaces 13(4), 5061-5072.

IF : 8.758(2019), IF 상위 10.350%(33/314) SCIE (Materials Science, Multidisciplinary 분야)

IF : 9.229(2020), IF 상위 12.99%(44/335) SCIE (Materials Science, Multidisciplinary 분야)

3. S. Sebastian, I. Kulandaisamy, S. Valanarasu, M. Shkir, V. Ganesh, I. S. Yahia, H. S. Kim, and D. Vikraman, 2021 (Feb), ’Physical and electrical properties’ evaluation of SnS:Cu thin films’, Surface Engineering 37(2), 137-147.

IF : 2.433(2019), IF 상위 50.000%(11/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 3.169(2020), IF 상위 35.71%(8/21) SCIE (Materials Science, Coatings & Films 분야)

2. H. Opoku, J. Y. Choy, A. Kumar K., N. K. Shrestha, I. Rabani, S. A. Patil, V. G. Sree, H. S. Kim, and C. Bathula, 2021 (Feb), ’Facile synthesis and optoelectronic properties of thienopyrroledione based conjugated polymer for organic field effect transistors’, Dyes and Pigments 186, 108973.

IF : 4.613(2019), IF 상위 2.083%(1/24) SCIE (Materials Science, Textiles 분야)

IF : 4.889(2020), IF 상위 10.00%(3/25) SCIE (Materials Science, Textiles 분야)

1. C. Bathula, O. Henry, A. Kumar K., Subalakshmi K., A. Jana, I. Rabani, J. H. Choi, J. H. Jeon, and H. S. Kim, 2021 (Jan), ‘Facile synthesis of an indacenodithiophene-based conjugated polymer for acid vapor sensing’, Dyes and Pigments 184, 108847.

IF : 4.613(2019), IF 상위 2.083%(1/24) SCIE (Materials Science, Textiles 분야)

IF : 4.889(2020), IF 상위 10.00%(3/25) SCIE (Materials Science, Textiles 분야)

2020

26. V. Kakani, S. Ramesh, H. M. Yadav, A. Kumar. K., S. Shinde, S. Sandhu, L. N. D. Quang, H. S. Kim, H. S. Kim, H. Kim, and C. Bathula, 2020 (Dec), ‘Facile synthesis of CuO/NiO/nitrogen doped rGO by ultrasonication for high performance supercapacitors’, Journal of Alloys and Compounds 847, 156411.

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

25. S. Hussain, S. A. Zaidi, D. Vikraman, H. S. Kim, and J. Jung, 2020 (Dec), ’Facile preparation of tungsten carbide nanoparticles for an efficient oxalic acid sensor via imprinting’, Microchemical Journal 159, 105404.

IF : 3.594(2019), IF 상위 21.512%(19/86) SCIE (Chemistry, Analytical 분야)

IF : 4.821(2020), IF 상위 18.67%(16/83) SCIE (Chemistry, Analytical 분야)

24. S. A. Kumar, K. Subalakshmi, K. A. Kumar, S. Sandhu, L. N. D. Quang, A. Jana, J. H. Jeon, H. S. Kim, and C. Bathula, 2020 (Dec), ‘Microstructure, luminescence, and dielectric properties of microwave-sintered Ce:LuAG nano-ceramics’, Ceramics International 46(17) 27092-27098. 

IF : 3.830(2019), IF 상위 5.357%(2/28) SCIE (Materials Science, Ceramics 분야)

IF : 4.527(2020), IF 상위 8.62%(3/29) SCIE (Materials Science, Ceramics 분야)

23. H. Opoku, J. Y. Choy, A. Kumar K., H. S. Kim, N. K. Shrestha, S. D. Mane, and C. Bathula, 2020 (Nov), ‘Benzo[1, 2-b: 4, 5-b']dithiophene-based copolymers as panchromatic light sensors in organic photodiodes application’, Journal of Materials Research and Technology 9(6), 15632-15637.

IF : 5.289(2019), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.039(2020), IF 상위  9.62%(9/80) SCIE(Metallurgy & Metallurgical Engineering 분야)

22. K. Karuppasamy, D. Vikraman, J. H. Jeon, S. Ramesh, H. M. Yadav, V. R. Jothi, R. Bose, H. S. Kim, A. Alfantazi, and H. S. Kim, 2020 (Nov), ‘Highly porous, hierarchical microglobules of Co3O4 embedded N-doped carbon matrix for high performance asymmetric supercapacitors’, Applied Surface Science 529, 147147.

IF : 6.182(2019), IF 상위 2.381%(1/21) SCIE (Materials Science, Coatings & Films 분야)

IF : 6.707(2020), IF 상위 2.38%(1/21) SCIE (Materials Science, Coatings & Films 분야)

21. K. Karuppasamy, K. Prasanna, V. R. Jothi, D. Vikraman, S. Hussain, J. H. Hwang, and H. S. Kim, 2020 (Nov), ‘Recent advances in nanostructured transition metal carbide- and nitride-based cathode electrocatalysts for Li-O2 batteries (LOBs): A brief review’, Nanomaterials 10(11), 2106.

IF : 4.324(2019), IF 상위 28.185%(89/314) SCIE (Materials Science, Multidisciplinary 분야)

IF : 5.076(2020), IF 상위 21.56%(35/160) SCIE (Physics, Applied 분야)

20. K. Karuppasamy, R. Bose, V. R. Jothi, D. Vikraman, Y. T. Jeong, P. Arunkumar, D. B. Veluswamy, T. Maiyalagan, A. Alfantazi, and H. S. Kim, 2020 (Oct), ‘High performance, 3D-hierarchical CoS2/CoSe@C nanohybrid as an efficient electrocatalyst for hydrogen evolution reaction’, Journal of Alloys and Compounds 838, 155537.

IF : 4.650(2019), IF 상위 9.494%(8/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.316(2020), IF 상위 6.875%(6/80) SCIE (Metallurgy & Metallurgical Engineering 분야)

19. A. Kathalingam, K. Kesavan, V. M. Pradeepa, and H. S. Kim, 2020 (Oct), ‘Fabrication and characterization of CuO/CdS heterostructure for optoelectronic applications’, Journal of Sol-Gel Science and Technology 96(1), 178-187.

IF : 2.008(2019), IF 상위 30.357%(9/28) SCIE (Materials Science, Ceramics 분야)

IF : 2.326(2020), IF 상위 25.86%(8/29) SCIE (Materials Science, Ceramics 분야)

18. R. Thomas, T. Mathavan, M. Shkir, S. AlFaify, H. S. Kim, and A. Kathalingam, 2020 (Sept), ‘Influence of yttrium doping on microstructural and optical properties of FTO thin films prepared by nebulizer spray technique’, Materials Today Communications 24, 101087.

IF : 2.678(2019), IF 상위 47.930%(151/314) SCIE (Materials Science, Multidisciplinary 분야)

IF : 3.383(2020), IF 상위 49.10%(165/335) SCIE (Materials Science, Multidisciplinary 분야)

17. S. Ramesh, H. Yadav, C. Bathulu, S. Shinde, A. Sivasamy, H. S. Kim, H. S. Kim, and J. H. Kim, 2020 (Sept), ‘Cubic nanostructure of Co3O4@nitrogen doped graphene oxide/polyindole composite efficient electrodes for high performance energy storage applications’, Journal of Materials Research and Technology 9(5), 11464-11475.

IF : 5.289(2019), IF 상위 5.696%(5/79) SCIE (Metallurgy & Metallurgical Engineering 분야)

IF : 5.039(2020), IF 상위  9.62%(9/80) SCIE(Metallurgy & Metallurgical Engineering 분야)

16. H. M. Yadav, S. Ramesh, K. A. Kumar, S. Shinde, S. Sandhu, A. Sivasamy, N. K. Shrestha, H. S. Kim, H. S. Kim, and C. Bathula, 2020 (Sept), ‘Impact of polypyrrole incorporation on nickel oxide@multi walled carbon nanotube composite for application in supercapacitors’, Polymer Testing 89, 106727.

IF : 3.275(2019), IF 상위 16.667%(6/33) SCIE (Materials Science, Characterization & Testing 분야)

IF : 4.282(2020), IF 상위 9.94%(4/32) SCIE (Materials Science, Characterization & Testing 분야)

IF : 4.931(2021), IF 상위 4.687%(2/32) SCIE (Materials Science, Characterization & Testing 분야)


15. S. Hussain, I. Rabani, D. Vikraman, A. Feroze, K. Karuppasamy, Z. U. Haq, Y. S. Seo, S. H. Chun, H. S. Kim, and J. Jung, 2020 (Aug), ’Hybrid design using carbon nanotubes decorated with Mo2C and W2C nanoparticles for supercapacitors and hydrogen evolution reactions’, ACS Sustainable Chemistry & Engineering 8(32), 12248-12259.

14. S. Hussain, I. Rabani, D. Vikraman, A. Feroze, M. Ali, Y. S. Seo, H. S. Kim, S. H. Chun, and J. Jung, 2020 (Aug), ’One-pot synthesis of W2C/WS2 hybrid nanostructures for improved hydrogen evolution reactions and supercapacitors’, Nanomaterials 10(8), 1597.

13. A. Kathalingam, S. Ramesh, H. M. Yadav, J. H. Choi, H. S. Kim, and H. S. Kim, 2020 (Jul), ‘Nanosheet-like ZnCo2O4@nitrogen doped graphene oxide/polyaniline composite for supercapacitor application: Effects of polyaniline incorporation’, Journal of Alloys and Compounds 830, 154734.

12. K. Paulraj, S. Ramaswamy, I. S. Yahia, A. M. Alshehri, H. H. Somaily, H. S. Kim, and A. Kathalingam, 2020 (Jul), ‘Praseodymium doped PbS thin films for optoelectronic applications prepared by nebulizer spray pyrolysis’, Applied Physics A 126(7), 503.

11. H. J. Kim, Y. H. Chung, I. T. Hwang, K. W. Jang, and H. S. Kim, 2020 (Jul), ‘Effects of seed layer coating and oxygen plasma treatment on the growth of ZnO nanorods for UV photodetector applications’, Journal of Nanoscience and Nanotechnology 20(7), 4340-4343.

10. D. Vikraman, S. Hussain, K. Karuppasamy, A. Feroze, A. Kathalingam, A. Sanmugam, S. H. Chun, J. Jung, and H. S. Kim, 2020 (May), ‘Engineering the novel MoSe2-Mo2C hybrid nanoarray electrodes for energy storage and water splitting applications’, Applied Catalysis B: Environmental 264, 118531.

IF : 24.319(2021), IF 상위 0.926%(1/54) SCIE (Engineering, Environmental 분야)

9. S. Kanimozhi, G. Kathiresan, A. Kathalingam, H. S. Kim, and M. N. R. Doss, 2020 (May) ‘Organic nanocomposite band-aid for chronic wound healing: a novel honey-based nanofibrous scaffold’, Applied Nanoscience 10(5), 1639-1652.

8. K. Karuppasamy, D. Vikraman, J. H. Choi, R. Bose, A. Nichelson, T. Maiyalagan, and H. S. Kim, 2020 (May), ‘Hybrid lithium-ion capacitors based on novel 1-butyl-3-methylimidazolium bis(nonafluorobutanesulfonyl imide) (BMImBNFSI) ionic liquid electrolytes: a detailed investigation of electrochemical and cycling behaviors’, Journal of Materials Research and Technology 9(3), 5216-5227.

7. S. Ramesh, H. M. Yadav, S. K. Shinde, C. Bathula, Y. J. Lee, R. K. Cheedarala, H. S. Kim, H. S. Kim and J. H. Kim, 2020 (May), ‘Fabrication of nanostructured SnO2@Co3O4/nitrogen doped graphene oxide composite for symmetric and asymmetric storage devices’, Journal of Materials Research and Technology 9(3), 4183-4193.

6. K. Karuppasamy, J. Theerthagiri, D. Vikraman, C. J. Yim, S. Hussain, R. Sharma, T. Maiyalagan, J. Qin, and H. S. Kim, 2020 (Apr), ‘Ionic liquid-based electrolytes for energy storage devices: A brief review on their limits and applications’, Polymers 12(4), 918.

5. K. Karuppasamy, D. Vikraman, I. T. Hwang, H. J. Kim, A. Nichelson, R. Bose, and H. S. Kim, 2020 (Mar), ‘Nonaqueous liquid electrolytes based on novel 1-ethyl-3-methylimidazolium bis (nonafluorobutane-1-sulfonyl imidate) ionic liquid for energy storage devices’, Journal of Materials Research and Technology 9(2), 1251-1260.

4. S. Hussain, S. A. Patil, D. Vikraman, I. Rabani, A. A. Arbab, S. H. Jeong, H. S. Kim, H. Choi, and J. Jung, 2020 (Feb), ‘Enhanced electrocatalytic properties in MoS2/MoTe2 hybrid heterostructures for dye-sensitized solar cells’, Applied Surface Science 504, 144401.

3. K. W. Jang, I. T. Hwang, H. J. Kim, S. H. Lee, J. W. Lim, and H. S. Kim, 2020 (Jan), ‘Thermal analysis and operational characteristics of an AlGaN/GaN high electron mobility transistor with copper-filled structures: A simulation study’, Micromachines 11(1), 53.

2. T. W. Kim, D. H. Kim, Y. H. Jo, J. H. Park, H. S. Kim, and C. H. Shin, 2020 (Jan), ‘Van der Waals heteroepitaxy of Te crystallites/2H-MoTe2 atomically thin films on GaAs substrates using metal-organic chemical-vapor deposition’, Journal of the Korean Physical Society 76(2), 167-170.

1. S. Sebastian, I. Kulandaisamy, S. Valanarasu, I. S. Yahia, H. S. Kim, and D. Vikraman, 2020 (Jan), ‘Microstructural and electrical properties evaluation of lead doped tin sulfide thin films’, Journal of Sol-Gel Science and Technology 93(1), 52-61.

2019

45. C. Bathula, A. B. Appiagyei, H. Yadav, A. K. K., S. Ramesh, N. K. Shresta, S. Shinde, H. S. Kim, H. S. Kim, V. Reddy, and M. Aurifullah, 2019 (Dec), ‘Facile synthesis of Triphenylamine Based Hyperbranched Polymer for Organic Field Effect Transistors’, Nanomaterials 9(12), 1787. 

44. K. Karuppasamy, K. Prasanna, P. R. Ilango, D. Vikraman, R. Bose, A. Alfantanzi, and H. S. Kim, 2019 (Dec), ‘Biopolymer phytagel-derived porous nanocarbon as efficient electrode material for high-performance symmetric solid-state supercapacitors’, Journal of Industrial and Engineering Chemistry 80, 258-264.

43. V. Ramasubbu, P. R. Kumar, E. M. Mothi, K. Karuppasamy, H. S. Kim, T. Maiyalagan, and X. S. Shajan, 2019 (Dec), ‘Highly interconnected porous TiO2-Ni-MOF composite aerogel photoanodes for high power conversion efficiency in quasi-solid dye-sensitized solar cells’, Applied Surface Science 496, 143646.

42. S. Hussain, D. Vikraman, K. Akbar, B. A. Naqvi, S. M. Abbas, H. S. Kim, S. H. Chun, and J. Jung, 2019 (Dec), ‘Fabrication of MoSe2 decorated three-dimensional graphene composites structure as a highly stable electrocatalyst for improved hydrogen evolution reaction’, Renewable Energy 143, 1659-1669.

41. K. W. Jang, J. H. Choi, J. H. Jeon, and H. S. Kim, 2019 (Nov), ‘Combustible gas classification modeling using support vector machine and pairing plot scheme’, Sensors 19(22), 5018.

40. Y. Song, H. So, Y. Chun, H. S. Kim, and Y. Hong, 2019 (Nov), ‘An implementation of low latency address-mapping logic for SSD controllers’, IEICE Electronics Express 16(21), 20190521.

39. R. G. Packirisamy, C. Govindasamy, A. Sanmugam, K. Karuppasamy, H. S. Kim, and D. Vikraman, 2019 (Nov), ‘Synthesis and antibacterial properties of novel ZnMn2O4-chitosan nanocomposites’, Nanomaterials 9(11), 1589.

38. T. Regu, C. Ambika, K. Karuppasamy, J. H. Jeon, Y. T. Jeong, D. Vikraman, T. A. B. Raj, and H. S. Kim, 2019 (Nov), ‘Al2O3-incorporated proton-conducting solid polymer electrolytes for electrochemical devices: a proficient method to achieve high electrochemical performance’, Ionics 25(11), 5117-5129.

37. S. Hussain, D. Vikraman, A. Feroze, W. Song, K. S. An, H. S. Kim, S. H. Chun, and J. Jung, 2019 (Oct), ‘Synthesis of Mo2C and W2C nanoparticle electrocatalysts for the efficient hydrogen evolution reaction in alkali and acid electrolytes’, Frontiers in Chemistry 7, 716.

36. K. Paulraj, S. Ramaswamy, A. M. S. Arulanantham, S. Valanarasu; M. Shkir, V. Ganesh, S. AlFaify, H. S. Kim, and A. Kathalingam, 2019 (Oct), ‘Investigation on nebulizer spray deposited Gd-doped PbS thin films for photo sensing applications’, Journal of Materials Science: Materials in Electronics 30(20), 18858-18865.

35. S. Hussain, J. Chae, K. Akbar, D. Vikraman, L. Truong, B. A. Naqvi, Y. Abbas, H. S. Kim, S. H. Chun, G. Kim, and J. Jung, 2019 (Oct), ‘Fabrication of robust hydrogen evolution reaction electrocatalyst using Ag2Se by vacuum evaporation’, Nanomaterials 9(10), 1460.

34. R. Bose, K. Karuppasamy, H. Rajan, D. B. Velusamy, H. S. Kim, and A. Alfantazi, 2019 (Oct), ‘Electrodeposition of unary oxide on a bimetallic hydroxide as a highly active and stable catalyst for water oxidation’, ACS Sustainable Chemistry & Engineering 7(19), 16392-16400.

33. R. G. Packirisamy, C. Govindasamy, A. Sanmugam, S. Venkatesan, H. S. Kim, and D. Vikraman, 2019 (Oct), ‘Synthesis of novel Sn1-xZnxO-chitosan nanocomposites: structural, morphological and luminescence properties and investigation of antibacterial properties’, International Journal of Biological Macromolecule 138, 546-555.

32. H. J. Kim, K. W. Jang, and H. S. Kim, 2019 (Oct), ‘Operational characteristics of various AlGaN/GaN high electron mobility transistor structures concerning self-heating effect’, Journal of Nanoscience and Nanotechnology 19(10), 6016-6022.

31. J. Theerthagiri, S. Salla, R. A. Senthil, P. Nithyadharseni, A. Madankumar, P. Arunachalam, T. Maiyalagan, and H. S. Kim, 2019 (Sept), ‘A review on ZnO nanostructured materials: energy, environmental and biological applications’, Nanotechnology 30(39), 392001.

30. I. T. Hwang, K. W. Jang, H. J. Kim, S. H. Lee, J. W. Lim, J. M. Yang, H. S. Kwon, and H. S. Kim, 2019 (Sept), ‘Analysis of DC characteristics in GaN-based metal-insulator-semiconductor high electron mobility transistor with variation of gate dielectric layer composition by considering self-heating effect’, Applied Sciences 9(17), 3610.

29. S. Ramesh, H. M. Yadav, Y. J. Lee, G. W. Hong, A. Kathalingam, A. Sivasamy, H. S. Kim, H. S. Kim, and J. H. Kim, 2019 (Sept), ‘Porous materials of nitrogen doped graphene oxide@SnO2 electrode for capable supercapacitor application’, Scientific Reports 9, 12622.

28. S. Ramesh, H. M. Yadav, K. Karuppasamy, D. Vikraman, H. S. Kim, J. H. Kim, and H. S. Kim, 2019 (Sept), ‘Fabrication of manganese oxide@nitrogen doped graphene oxide/polypyrrole (MnO2@NGO/PPy) hybrid composite electrodes for energy storage devices’, Journal of Materials Research and Technology 8(5), 4227-4238.

27. A. Kathalingam, H. M. S. Ajmal, S. Ramesh, H. S. Kim, S. D. Kim, S. H. Choi, W. Yang, K. K. Kim, and H. S. Kim, 2019 (Sept), ‘Poly(methyl methacrylate)-derived graphene films on different substrates using rapid thermal process: a way to control the film properties through the substrate and polymer layer thickness’, Journal of Materials Research and Technology 8(5), 3752-3763.

26. S. Hussain, S. A. Zaidi, D. Vikraman, H. S. Kim, and J. Jung, 2019 (Sept), ‘Facile preparation of molybdenum carbide (Mo2C) nanoparticles and its effective utilization in electrochemical sensing of folic acid via imprinting’, Biosensors and Bioelectronics 140, 111330.

25. M. V. Arasu, A. Madankumar, J. Theerthagiri, S. Salla, S. Prabu, H. S. Kim, N. A. Al-Dhabi, S. Arokiyaraj, and V. Duraipandiyan, 2019 (Sept), ‘Synthesis and characterization of ZnO nanoflakes anchored carbon nanoplates for antioxidant and anticancer activity in MCF7 cell lines’, Materials Science & Engineering C 102, 536-540.

24. A. Sanmugam, A. R. Jeyaraman, S. Venkatesan, M. Paramasivam, H. S. Kim, and D. Vikraman, 2019 (Aug), ‘A one-pot chemical route to prepare poly 4, 4'-diaminodiphenyl sulfone-zirconium dioxide/cerium dioxide hybrid nanocomposites for improved capacitance properties’ Materials Letters 249, 5-8.

23. D. Vikraman, A. A. Arbab, S. Hussain, N. K. Shrestha, S. H. Jeong, J. Jung, S. A. Patil, and H. S. Kim, 2019 (Aug), ‘Design of WSe2/MoS2 heterostructures as the counter electrode to replace Pt for dye-sensitized solar cells’, ACS Sustainable Chemistry & Engineering 7(15), 13195-13205.

22. S. Ramesh, D. Vikraman, K. Karuppasamy, H. M. Yadav, A. Sivasamy, H. S. Kim, J. H. Kim, and H. S. Kim, 2019 (Jul), ‘Controlled synthesis of SnO2@NiCo2O4/nitrogen doped multiwalled carbon nanotube hybrids as an active electrode material for supercapacitors’, Journal of Alloys and Compounds 794, 186-194.

21. A. Kathalingam, S. Ramesh, A. Sivasamy, H. S. Kim, and H. S. Kim, 2019 (Jul), ‘Supercapacitor performance of MnO2/NiCo2O4@N-MWCNT hybrid nanocomposite electrodes’, Journal of Sol-Gel Science and Technology 91(1), 154-164.

20. D. Govindarajan, K. Parasuraman, M. Thandavarayan, T. Jayaraman, V. K. Ponnusamy, and H. S. Kim, 2019 (Jul), ‘Influence of chromium content on microstructural and electrochemical supercapacitive properties of vanadium nitride thin films developed by reactive magnetron co-sputtering process’, Ceramics International 45(10), 12643-12653.

19. D. Vikraman, S. Hussain, L. Truong, K. Karuppasamy, H. J. Kim, T. Maiyalagan, S. H. Chun, J. Jung, and H. S. Kim, 2019 (Jun), ‘Fabrication of MoS2/WSe2 heterostructures as electrocatalyst for enhanced hydrogen evolution reaction’, Applied Surface Science 480, 611-620.

18. D. Vikraman, S. Thiagarajan, K. Karuppasamy, A. Sanmugam, J. H. Choi, K. Prasanna, T. Maiyalagan, M. Thaiyan, and H. S. Kim, 2019 (Jun), ‘Shape- and size-tunable synthesis of tin sulfide thin films for energy applications by electrodeposition’, Applied Surface Science 479, 167-176.

17. T. Regu, C. Ambika, K. Karuppasamy, H. Rajan, D. Vikraman, J. H. Jeon, H. S. Kim, and T. A. B. Raj, 2019 (Jun), ‘Proton transport and dielectric properties of high molecular weight polyvinylpyrrolidone (PVPK90) based solid polymer electrolytes for portable electrochemical devices’, Journal of Materials Science: Materials in Electronics 30(12), 11735-11747.

16. S. Hussain, D. Vikraman, L. Truong, K. Akbar, I. Rabani, H. S. Kim, S. H. Chun, and J. Jung, 2019 (Jun), ‘Facile and cost-effective growth of MoS2 on 3D porous graphene-coated Ni foam for robust and stable hydrogen evolution reaction’, Journal of Alloys and Compounds 788, 267-276.

15. K. Karuppasamy, V. R. Jothi, D. Vikraman, K. Prasanna, T. Maiyalagan, B. I. Sang, S. C. Yi, and H. S. Kim, 2019 (Jun), ‘Metal-organic framework derived NiMo polyhedron as an efficient hydrogen evolution reaction electrocatalyst’, Applied Surface Science 478, 916-923.

14. S. Ramesh, A. Kathalingam, K. Karuppasamy, H. S. Kim, and H. S. Kim, 2019 (Jun), ‘Nanostructured CuO/Co2O4@ nitrogen doped MWCNT hybrid composite electrode for high-performance supercapacitors’, Composites Part B:  Engineering 166, 74-85.

13. P. Shanmugam, A. P. Murthy, J. Theerthagiri, W. Wei, J. Madhavan, H. S. Kim, T. Maiyalagan, and J. Xie, 2019 (May), ‘Robust bifunctional catalytic activities of N-doped carbon aerogel-nickel composites for electrocatalytic hydrogen evolution and hydrogenation of nitrocompounds’, International Journal of Hydrogen Energy 44(26), 13334-13344.

12. S. Ramesh, K. Karuppasamy, H. M. Yadav, J. J. Lee, H. S. Kim, H. S. Kim, and J. H. Kim, 2019 (Apr), ‘Ni(OH)2-decorated nitrogen doped MWCNT nanosheets as an efficient electrode for high performance supercapacitors’, Scientific Reports 9, 6034.

11. S. Sebastian, I. Kulandaisamy, S. Valanarasu, N. Soundaram, K. Paulraj, D. Vikraman, and H. S. Kim, 2019 (Apr), ‘Investigations on Fe doped SnS thin films by nebulizer spray pyrolysis technique for solar cell applications’, Journal of Materials Science: Materials in Electronics 30(8), 8024-8034.

10. A. R. Devi, A. J. Christy, K. D. A. Kumar, S. Valanarasu, M. S. Hamdy, K. S. Al-Namshah, A. M. Alhanash, D. Vikraman, and H. S. Kim, 2019 (Apr), ‘Physical properties evaluation of nebulized spray pyrolysis prepared Nd doped ZnO thin films for opto-electronic applications’, Journal of Materials Science: Materials in Electronics 30(8), 7257-7267.

9. H. T. Kwak, K. W. Jang, H. J. Kim, S. H. Lee, J. W. Lim, and H. S. Kim, 2019 (Apr), ‘DC characteristics of AlGaN/GaN high-electron mobility transistor with a bottom plate connected to source-bridged field plate structure’, Journal of Nanoscience and Nanotechnology 19(4), 2319-2322.

8. Y. J. Park, H. T. Kwak, S. B. Chang, and H. S. Kim, 2019 (Apr), ‘Breakdown voltage enhancement in AlGaN/GaN high-electron mobility transistor by optimizing gate field-plate structure’, Journal of Nanoscience and Nanotechnology 19(4), 2298-2301.

7. D. Vikraman, K. Karuppasamy, S. Hussain, A. Kathalingam, A. Sanmugam, J. Jung, and H. S. Kim, 2019 (Mar), ‘One-pot facile methodology to synthesize MoS2-graphene hybrid nanocomposites for supercapacitors with improved electrochemical capacitance’, Composites Part B:  Engineering 161, 555-563.

6. K. Andiappan, A. Sanmugam, E. Deivanayagam, K. Karuppasamy, H. S. Kim, and D. Vikraman, 2019 (Mar), ‘Schiff base rare earth metal complexes: Studies on functional, optical and thermal properties and assessment of antibacterial activity’, International Journal of Biological Macromolecules 124, 403-410.

5. S. Karthickprabhu, D. Vikraman, A. Kathalingam, K. Prasanna, H. S. Kim, and K. Karuppasamy, 2019 (Feb), ‘Electrochemical and cycling performance of neodymium (Nd3+) doped LiNiPO4 cathode materials for high voltage lithium-ion batteries’, Materials Letters 237, 224-227.

4. A. M. S. Arulanantham, S. Valanarasu, A. Kathalingam, M. Shkir, and H. S. Kim, 2019 (Feb), ‘Influence of substrate temperature on the SnS absorber thin films and SnS/CdS heterostructure prepared through aerosol assisted nebulizer spray pyrolysis’, Materials Research Express 6(2), 026412.

3. D. Vikraman, S. A. Patil, S. Hussain, N. Mengal, S. H. Jeong, J. Jung, H. J. Park, H. S. Kim, and H. S. Kim, 2019 (Jan), ‘Construction of dye-sensitized solar cells using wet chemical route synthesized MoSe2 counter electrode’, Journal of Industrial and Engineering Chemistry 69, 379-386.

2. D. Vikraman, S. Hussain, K. Prasanna, K. Karuppasamy, J. Jung, and H. S. Kim, 2019 (Jan), ‘Facile method to synthesis hybrid phase 1T@2H MoSe2 nanostructures for rechargeable lithium ion batteries’, Journal of Electroanalytical Chemistry 833, 333-339.

1. D. Vikraman, S. Hussain, K. Akbar, K. Karuppasamy, S. H. Chun, J. Jung, and H. S. Kim, 2019 (Jan), ‘Design of basal plane edges in metal-doped nanostripes-structured MoSe2 atomic layers to enhance hydrogen evolution reaction activity’, ACS Sustainable Chemistry & Engineering 7(1), 458-469.

2018

31. S. Hussain, S. A. Patil, A. A. Memon, D. Vikraman, H. G. Abbas, S. H. Jeong, H. S. Kim, H. S. Kim, and J. Jung, 2018 (Dec), ‘Development of a WS2/MoTe2 heterostructure as a counter electrode for the improved performance in dye-sensitized solar cells’, Inorganic Chemistry Frontiers 5(12), 3178-318. 

30. A. S. Rana and H. S. Kim, 2019 (Dec), ‘Growth condition-oriented defect engineering for changes in Au-ZnO contact behavior from Schottky to ohmic and vice versa’, Nanomaterials 8(12), 980.

29. J. Theerthagiri, G. Durai, K. Karuppasamy, P. Arunachalam, V. Elakkiya, P. Kuppusami, T. Maiyalagan, and H. S. Kim, 2018 (Nov), ‘Recent Advances in 2-D nanostructured metal nitrides, carbides, and phosphides electrodes for electrochemical supercapacitors - A brief review’, Journal of Industrial and Engineering Chemistry 67, 12-27.

28. S. Ramesh, K. Karuppasamy, H. S. Kim, H. S. Kim, and J. H. Kim, 2018 (Nov), ‘Hierarchical flowerlike 3D nanostructure of Co3O4@MnO2/N-doped graphene oxide (NGO) hybrid composite for a high-performance supercapacitor’, Scientific Reports 8, 16543.

27. A. M. S. Arulanantham, S. Valanarasu, A. Kathalingam, Mohd. Shkir, and H. S. Kim, 2018 (Nov), ‘An investigation on SnS layers for solar cells fabrication with CdS, SnS2 and ZnO window layers prepared by nebulizer spray method’, Applied Physics A: Materials Science & Processing 124(11), 776.

26. V. Kannan, J. H. Choi, H. C. Park, and H. S. Kim, 2018 (Nov), ‘Ultrahigh supercapacitance in cobalt oxide nanorod film grown by oblique angle deposition technique’, Current Applied Physics 18(11), 1399-1402.

25. J. Theerthagiri, S. Chandrasekaran, S. Salla, V. Elakkiya, R. A. Senthil, P. Nithyadharseni, T. Maiyalagan, K. Micheal, A. Ayeshamariam, M. V. Arasu, N. A. Al-Dhabi, and H. S. Kim, 2018 (Nov), ‘Recent developments of metal oxide based heterostructures for photocatalytic applications towards environmental remediation’, Journal of Solid State Chemistry 267, 35-52.

24. S. Ramesh, D. Vikraman, H. S. Kim, H. S. Kim, and J. H. Kim, 2018 (Oct), ‘Electrochemical performance of MWCNT/GO/NiCo2O4 decorated hybrid nanocomposite for supercapacitor electrode materials’, Journal of Alloys and Compounds 765, 369-379.

23. A. Kathalingam and H. S. Kim, 2018 (Sept), ‘Fabrication of two-terminal devices using solution-synthesized Cu-doped ZnO nanorods and their photosensing properties’, Optical Materials Express 8(9), 2832-2842.

22. S. Hussain, S. A. Patil, A. A. Memon, D. Vikraman, B. A. Naqvi, S. H. Jeong, H. S. Kim, H. S. Kim, and J. Jung, 2018 (Sept), ‘CuS/WS2 and CuS/MoS2 heterostructures for high performance counter electrodes in dye-sensitized solar cells’, Solar Energy 171, 122-129.

21. H. T. Kwak, S. B. Chang, H. G. Jung, and H. S. Kim, 2018 (Sept), ‘Thermal analysis of AlGaN/GaN high-electron-mobility-transistor and its RF power efficiency optimization with source-bridged field-plate structure’, Journal of Nanoscience and Nanotechnology 18(9), 5860-5867.

20. S. Karthikprabhu, K. Karuppasamy, D. Vikraman, K. Prasanna, T. Maiyalagan, A. Nichelson, A. Kathalingam and H. S. Kim, 2018 (Aug), ‘Electrochemical performances of LiNi1-xMnxPO4 (x = 0.05-0.2) olivine cathode materials for high voltage rechargeable lithium ion batteries’, Applied Surface Science 449, 435-444.

19. V. Kannan, H. J. Kim, H. C. Park, and H. S. Kim, 2018 (Aug), ‘Single-step direct hydrothermal growth of NiMoO4 nanostructured thin film on stainless steel for supercapcitor electrodes’, Nanomaterials 8(8), 563.

18. C. Amika, K. Karuppasamy, D. Vikraman, J. Y. Lee, T. Regu, T. Ajith Bosco Raj, K. Prasanna, and H. S. Kim, 2018 (Aug), ‘Effect of dimethyl carbonate (DMC) on the electrochemical and cycling properties of solid polymer electrolytes (PVP-MSA) and its application for proton batteries’, Solid State Ionics 321, 106-114.

17. D. Vikraman, S. Hussain, K. Akbar, L. Truong, A. Kathalingam, S. H. Chun, J. Jung, H. J. Park, and H. S. Kim, 2018 (Jul), ‘Improved hydrogen evolution reaction performance using MoS2-WS2 heterostructures by physicochemical process’, ACS Sustainable Chemistry & Engineering 6(7), 8400-8409.

16. H. T. Kwak, S. B. Chang, H. J. Kim, K. W. Jang, H. S. Yoon, S. H. Lee, J. W. Lim, and H. S. Kim, 2018 (Jun), ‘Operational improvement of AlGaN/GaN high electron mobility transistor by an inner field-plate structure’, Applied Sciences 8(6), 974.

15. A. Kathalingam and H. S. Kim, 2018 (Jun), ‘Electric field induced pattern formation on PMMA and ITO layers’, Physica Status Solidi A: Applications and Materials Science 215(11), 1700811.

14. D. Vikraman, S. Hussain, K. Akbar, A. Kathalingam, S. H. Lee, S. H. Chun, J. Jung, H. S. Kim, and H. J. Park, 2018 (May), ‘Facile synthesis of molybdenum diselenide layers for high-performance hydrogen evolution electrocatalysts’, ACS Omega 3(5), 5799-5807.

13. A. S. Rana, J. Y. Lee, Y. P. Hong, and H. S. Kim, 2018 (May), ‘Transient current response for ZnO nanorod-based doubly transparent UV sensor fabricated on flexible substrate’, Physica Status Solidi – Rapid Research Letters 12(5), 1800001.

12. A. Shahid, J. H. Choi, A. S. Rana, and H. S. Kim, 2018 (May), ‘Least squares neural network-based wireless E-nose system using an SnO2 sensor array’, Sensors 18(5), 1446.

11. A. Kathalingam, K. Kesavan, A. S. Rana, J. H. Jeon, and H. S. Kim, 2018 (May), ‘Analysis of Sn concentration effect on morphological, optical, electrical and photonic properties of spray-coated Sn-doped CdO thin films’, Coatings 8(5), 167.

10. J. Theerthagiri, K. Karuppasamy, G. Durai, A. S. Rana, P. Arunachalam, K. Sangeetha, P. Kuppusami, and H. S. Kim, 2018 (Apr), ‘Recent advances in metal chalcogenides (MX; X=S, Se) nanostructures for electrochemical supercapacitor applications: A brief review’, Nanomaterials 8(4), 256.

9. A. Kathalingam, D. Vikraman, K. Karuppasamy, H. S. Kim, H. C. Park, and K. Shanmugam, 2018 (Apr), ‘Maskless patterned growth of ZnO nanorod arrays using tip based electrolithogrpahy’, Materials Science in Semiconductor Processing 77, 24-30.

8. D. Vikraman, S. A. Patil, S. Hussain, N. Mengal, H. S. Kim, S. H. Jeong, J. Jung, H. S. Kim and H. J. Park, 2018 (Apr), ‘Facile and cost effective methodology to fabricate MoS2 counter electrode for efficient dye-sensitized solar cells’, Dyes and Pigments 151, 7-14.

7. A. S. Rana, A. Shahid, J. Y. Lee, and H. S. Kim, 2018 (Mar), ‘High-power microwave-assisted Ga doping, an effective method to tailor n-ZnO/p-Si heterostructure optoelectronic characteristics’, Physica Status Solidi A: Applications and Materials Science 215(5), 1700763.

6. K. D. A. Kumar, S. Valanarasu, K. Jeyadheepan, H. S. Kim, and D. Vikraman, 2018 (Mar), ‘Evaluation of the physical, optical, and electrical properties of SnO2:F thin films prepared by nebulized spray pyrolysis for optoelectronics’, Journal of Materials Science: Materials in Electronics 29(5), 3648-3656.

5. H. U. Chae, A. S. Rana, Y. J. Park, and H. S. Kim, 2018 (Mar), ‘High-speed growth of ZnO nanorods in preheating condition using microwave-assisted growth method’, Journal of Nanoscience and Nanotechnology 18(3), 2041-2044.

4. A. S. Rana, S. B. Chang, and H. S. Kim, 2018 (Mar), ‘NH4OH-Oriented and pH-dependent growth of ZnO nanostructures via microwave-assisted growth method’, Journal of Nanoscience and Nanotechnology 18(3), 2125-2127.

3. K. Andiappan, A. Sanmugam, E. Deivanayagam, K. Karuppasamy, H. S. Kim, and D. Vikraman, 2018 (Feb), ‘In vitro cytotoxicity activity of novel Schiff base ligand-lanthanide complexes’, Scientific Reports 8, 3054.

2. A. Kathalingam, K. Shanmugam, H. C. Park, and H. S. Kim, 2018 (Feb) ‘Fabrication of arrayed metal oxide structures by electrochemical local oxidation using metallic tip with electric field and humidity’, Journal of Materials Processing Technology 252, 304-312.

1. A. S. Rana and H. S. Kim, 2018 (Jan), ‘NH4OH treatment for an optimum morphological trade-off to hydrothermal Ga-doped n-ZnO/p-Si heterostructure characteristics’, Materials 11(1), 37.

2017

12. A. S. Rana, S. B. Chang, H. U. Chae, and H. S. Kim, 2017 (Dec), ‘Structural, optical, electrical and morphological properties of different concentration sol-gel ZnO seeds and consanguineous ZnO nanostructured growth dependence on seeds’, Journal of Alloys and Compounds 729, 571-582.

11. S. Ramesh, K. Karuppasamy, S. Msolli, H. S. Kim, H. S. Kim, and J. H. Kim, 2017 (Dec), ‘A nanocrystalline structured of NiO/MnO2@nitrogen-doped graphene oxide hybrid nanocomposite for high performance supercapacitors’, New Journal of Chemistry 41(24), 15517-15527.

10. A. Sanmugam, D. Vikraman, K. Karuppasamy, J. Y. Lee, and H. S. Kim, 2017 (Dec), ‘Evaluation of the corrosion resistance properties of electroplated chitosan-Zn1-xCuxO composite thin films’, Nanomaterials 7(12), 432.

9. S. Hussain, K. Akbar, D. Vikraman, K. Karuppasamy, H. S. Kim, S. H. Chun, and J. Jung, 2017 (Dec), ‘Synthesis of MoS2(1-x)Se2x and WS2(1-x)Se2x alloys for enhanced hydrogen evolution reaction performance’, Inorganic Chemistry Frontiers 4(12), 2068-2074.

8. A. Sanmugam, D. Vikraman, H. J. Park, and H. S. Kim, 2017 (Nov), ‘One-pot facile methodology to synthesize chitosan-ZnO-graphene oxide hybrid composites for better dye adsorption and antibacterial activity’, Nanomaterials 7(11), 363.

7. K. Karuppasamy, H. S. Kim, D. Kim, D. Vikraman, K. Prasanna, A. Kathalingam, R. Sharma, and H. W. Rhee, 2017 (Sept), ‘An enhanced electrochemical and cycling properties of novel boronic Ionic liquid based ternary gel polymer electrolytes for rechargeable Li/LiCoO2 cells’, Scientific Reports 7, 11103.

6. A. S. Rana, J. Y. Lee, A. Shahid, and H. S. Kim, 2017 (Sept), ‘Growth method-dependent and defect density-oriented structural, optical, conductive, and physical properties of solution-grown ZnO nanostructures’, Nanomaterials 7(9), 26.

5. J. W. Lim, D. K. Hwang, K. Y. Lim, M. Kang, S. C. Shin, H. S. Kim, W. K. Choi, and J. W. Shim, 2017 (Sept), ‘ZnO-morphology-dependent effects on the photovoltaic performance for inverted polymer solar cells’, Solar Energy Materials and Solar Cells 169, 28-32.

4. A. Kathalingam and H. S. Kim, 2017 (Jun), ‘Annealing induced p-type conversion and substrate dependent effect of n-ZnO/p-Si heterostructure’, Materials Letters 196, 30-32.

3. M. Kang, A. S. Rana, E. S. Jeong, and H. S. Kim, 2017 (Jun), ‘Direct observation of thermally generated electron-hole pairs in ZnO nanorods with surface acoustic wave’, Journal of Nanoscience and Nanotechnology 17(6), 4141-4144.

2. K. Karuppasamy, K. Prasanna, D. Vikraman, H. S. Kim, A. Kathalingam, L. Mitu, and H. W. Rhee, 2017 (Jun), ‘A rapid one-pot synthesis of novel high-purity methacrylic phosphonic acid (PA)-based polyhedral oligomeric silsesquioxane (POSS) frameworks via thiol-ene click reaction’, Polymers 9(6), 192.

1. A. Kathalingam, V. Dhanasekaran, H. S. Kim, and H. J. Park, 2017(Apr), ‘Facile fabrication of n-ZnO nanorods/p-Cu2O heterojunction and its photodiode property’, Optical Materials 66, 122-130.