Chaitanya B. Hiragond, Niket Powar, Hwapyong Kim, and Su-Il In*
EnergyChem, 2024, 5, 100130 (IF: 23.8)→
24. Unravelling the effect of Ti3+/Ti4+ active sites dynamic on reaction pathways in direct gas-solid-phase CO2 photoreduction
Niket S. Powar, Sanghoon Kim, Junho Lee, Eunhee Gong, Chaitanya B. Hiragond, Dongyun Kim, Tierui Zhang, Minho Kim*, and Su-Il In*
Applied Catalysis B: Environmental and Energy, 2024, 124006 (IF: 21.1)→
Chaitanya B. Hiragond, Jungmyung Kim, Hwapyong Kim, Dowon Bae*, and Su-Il In*
Solar RRL, 2024, 2400022 (IF: 5.3)→
Niket S. Powar, Myeongjin Jang, Min Gyu Kim, Chaitanya B. Hiragond, Junho Lee, Eunhee Gong, Hwapyong Kim, Dongyun Kim,
Jin-Woo Jung, Chang-Hee Cho, Minho Kim*, and Su-Il In*
Chemical Engineering Journal, 2024, 147966 (IF: 13.2)→
21. Surface modified Ag@Ru-P25 for photocatalytic CO2 conversion with high selectivity over CH4 formation at the solid-gas interface
Chaitanya B. Hiragond, Sohag Biswas, Niket S. Powar, Junho Lee, Eunhee Gong, Jin-Woo Jung, Chang-Hee Cho, Bryan M. Wong, and Su-Il In*
Carbon Energy, 2023, e386 (IF: 24.2)→
20. Single-atom catalysts (SACs) for photocatalytic CO2 reduction with H2O: activity, product selectivity, stability, and surface chemistry
Chaitanya B. Hiragond, Niket S. Powar, Junho Lee, and Su Il-In*
Small, 2022, 18 (29), 2201428 (Most downloaded (top 10%) paper in 2022-23) (IF: 12.5)→
19. Solar fuels: Research and development strategies to accelerate photocatalytic CO2 conversion into hydrocarbon fuels
Eunhee Gong†, Shahzad Ali†, Chaitanya B. Hiragond†, Hong Soo Kim†, Niket S Powar, Dongyun Kim, Hwapyong Kim, and Su-Il In*
Energy & Environmental Science, 2022, 15, 880-937 (IF: 30.8)→
18. Phase-controlled 1T/2H-MoS2 interaction with reduced TiO2 for highly stable photocatalytic CO2 reduction into CO
Young-Ho Park, Dongyun Kim, Chaitanya B. Hiragond, Junho Lee, Jin-Woo Jung, Chang-Hee Cho, Insik In, and Su-Il In*
Journal of CO2 Utilization, 2022, 67, 102324 (IF: 8.5)→
17. A novel N-doped graphene oxide enfolded reduced titania for highly stable and selective gas-phase photocatalytic CO2 reduction into CH4: An in-depth study on the interfacial charge transfer mechanism
Chaitanya B. Hiragond, Junho Lee, Hwapyong Kim, Jin-Woo Jung, Chang-Hee Cho, and Su-Il In*,
Chemical Engineering Journal, 2021, 416, 127978 (IF: 13.2)→
16. Two-dimensional metal carbides for electro- and photocatalytic CO2 reduction
Niket S. Powar, Chaitanya B. Hiragond, Dowon Bae, and Su-Il In*
Journal of CO2 Utilization, 2021, 55, 101814 (IF: 8.5)→
15. Electrochemical CO2 reduction to CO catalyzed by 2D nanostructures
Chaitanya B. Hiragond, Hwapyong Kim, Junho Lee, Saurav Sorcar, Can Erkey, and Su-Il In*
Catalysts, 2020, 10, 98 (IF: 4.0)→
14. Recent developments in lead and lead-free halide perovskite nanostructures towards photocatalytic CO2 reduction
Chaitanya B. Hiragond, Niket S Powar, and Su-Il In*
Nanomaterials, 2020, 10, 12 (IF: 4.3)→
13. Hierarchical nanostructured photocatalysts for CO2 photoreduction
Chaitanya B. Hiragond, Shahzad Ali, Saurav Sorcar and Su-Il In*
Catalysts, 2019, 9, 370 (IF: 4.0)→
12. Gas-phase photocatalytic CO2 reduction: A brief overview for benchmarking
Shahzad Ali, Monica Claire Flores, Abdul Razzaq, Saurav Sorcar, Chaitanya B. Hiragond, Hye Rim Kim, Young Ho Park, Yunju Hwang, Hong Soo Kim, Hwapyong Kim, Eun Hee Gong, Junho Lee, Dongyun Kim, and Su-Il In*
Catalysts, 2019, 9 (9), 427 (IF: 4.0)→
11. La-doped BaTiO3 nanostructures for room temperature sensing of NO2/NH3: focus on La concentration and sensing mechanism
RP Patil, Chaitanya B. Hiragond, GH Jain, Pawan K. Khanna, VB Gaikwad, and Priyesh V. More*
Vacuum, 2019, 166, 37 (IF: 3.9)→
10. Band engineered I/III/V–VI binary metal selenide/MWCNT/PANI nanocomposites for potential room-temperature thermoelectric applications
Anuraj S. Kshirsagar, Chaitanya B. Hiragond, Abhijit Dey, Priyesh V. More, and Pawan K. Khanna*
ACS Applied Energy Materials, 2019, 2(4), 2680 (IF: 5.5)→
9. Enhanced antimicrobial response of commercial face masks using colloidal silver nanoparticles
Chaitanya B. Hiragond, Anuraj S. Kshirsagar, Vividha V. Dhapte, Tanaya Khanna, Prasad Joshi, and Priyesh V. More*
Vacuum, 2018, 426, 475 (IF: 3.9)→
7. Probing the real-time photocatalytic activity of CdS QDS sensitised conducting polymers: featured PTh, PPy, and PANI
Chaitanya B. Hiragond, Pawan K. Khanna, and Priyesh V. More*
Vacuum, 2018, 155, 159 (IF: 3.9)→
6. Surface engineering of CdS quantum dots for photocatalytic applications under direct sunlight
V Srinivasan, Chaitanya B. Hiragond, Pawan K. Khanna, and Priyesh V. More*
Chemistry Select, 2018, 3(29), 8491 (IF: 2.2)→
5. CdSe–PVP QDs for degradation of methylene blue via photocatalytic oxidative cleavage under mild visible light
PK Khanna*, A Kumar, A Kshirsagar, and Chaitanya B. Hiragond
Journal of Nanosci. Nanotec., 2018, 18 (1), 143-155 (IF: 1.5)→
4. Selective synthesis of α or β-HgS nanocrystals via core/shell formation using surface-modified CdS quantum dots
PV More, Chaitanya B. Hiragond, S. Bhanoth, and PK Khanna*
Journal of Nanosci. & Nanotec., 2018, 18 (1), 242-250 (IF: 1.5)→
3. Instant synthesis of white light‐emitting Cd chalcogenide nanoclusters using a homogenization method
PV More, Chaitanya B. Hiragond, A Jadhav, P Kush, S Sapra, and PK Khanna*
Chemistry Select, 2017, 2 (35), 11775-11782 (IF: 2.2)→
2. Band engineered p-type RGO–CdS–PANI ternary nanocomposites for thermoelectric applications
PV More, Chaitanya B. Hiragond, A Dey, and PK Khanna*
Sustainable Energy & Fuels, 2017, 1 (8), 1766-1773 (IF: 5.1)→
1. Rapid homogenization method for synthesis of core/shell ZnO/CdS nanoparticles and their photocatalytic evaluation
S. Rasal, PV More, Chaitanya B. Hiragond, S Jadhav, and PK Khanna*
Adv. Mater. Lett. 2016, 7, 390-7 →