Journal Publications

P. Chakraborty, T. Majumder, S. Dhar, and S. P. Mondal Non-enzymatic Hydrogen Peroxide and Glucose Sensing Using TiO2/CuO Hierarchical Heterojunction Nanostructure, Nano LIFE (2024)

A. Dash, D. C. Patra, A. Deb, S. Das, D. Acharyya & S. P. Mondal, Low Level Carbon Monoxide Detection Using Chemically Reduced Graphene Oxide Deposited ZnO Nanorods, Thin Solid Films, 140442 (2024).

D. C. Patra, A. Dash, N. Deka and S P Mondal, Gold Nanoparticle Sensitized Zinc Oxide Nanorods based Nitric Oxide Gas Sensors with high sensitivity, selectivity and low detection limit, Nano, 19,01, 2450001 (2024).

N Deka, P Chakraborty, DC Patra, SP Mondal, Highly Conducting Flake-like CuS Nanostructured Counter Electrode for Photoelectrochemical Solar Energy Conversion, Thin Solid films, 774,139847 (2023).

D. C. Patra, SP Mondal, Gold Nanoparticle-Modified Tungsten Oxide Flakes as Nitric Oxide Sensor Electrodes for Fruit Quality Monitoring, ACS Applied Nano Materials, 6, 4, 3111–3120 (2023).

DC Patra, N Deka, A Dash, SA Khan, TK Misra, SP Mondal, Non invasive Electrochemical Nitric Oxide Detection in Human Saliva Using Pt and TiO2 Nanoparticle Composite Electrodes, ACS Applied Electronic Materials, 5, 2, 832–845, (2023) 

 T Majumder, SP Mondal, S, N Co-Doped Graphene Quantum Dots for Novel Quantum Dots Solar Cell, International Journal of Nanoscience, 21 (6), 2250047-71(2022).

N Deka, P Chakraborty, DC Patra, S Dhar, S P Mondal, “Self-powered photosensing and biosensing using hydrothermally grown CdS nanorods” Journal of Materials Science: Materials in Electronics, 33 (22), 17688-17698 (2022).

 D. C. Patra, P. Chakraborty, N. Deka, K. Debnatha, S. P. Mondal, “Electrochemical nitric oxide detection using gold deposited cobalt oxide nanostructures”, Chemical Physics Letters, 802, 139795(2022).

K Debnath, T Majumder, S P Mondal, “Photoelectrochemical Study of Hydrothermally Grown Vertically Aligned Rutile TiO2 Nanorods” Chemical Physics, 561,111609(2022).

 K Debnath, T Majumder, S P Mondal, “Highly luminescent nitrogen doped graphene quantum dots sensitized TiO2 nanorod arrays for enhanced photoelectrochemical performance” Journal of Electroanalytical Chemistry,909, 116150(2022).

K Debnath, T Majumder, S P Mondal, “Photoelectrochemical and photosensing study of nitrogen doped carbon nanoparticles sensitized TiO2 nanorods” Diamond & Related Materials, 120, 108683 (2021).

N Deka, P Chakraborty, DC Patra, S Dhar, S P Mondal, “Study of self-powered and broadband photosensing properties of CdS/PbS-decorated TiO2 nanorods/reduced graphene oxide junction”, Bulletin of Materials Science, 118, 105165 (2021).

 P. Chakraborty, N. Deka, D. C. Patra, K. Debnath, S. P. Mondal, “Salivary glucose sensing using highly sensitive and selective non-enzymatic porous NiO nanostructured electrodes”, Surfaces and Interfaces, 26, 101324(2021).

P Chakraborty, N Deka, D C Patra, K Debnath, S P Mondal, “Hydrothermally Grown Porous Cobalt Oxide Nanostructures for Enzyme-Less Glucose Detection”, Journal of Electronic Materials, 50 (6), 3699-3705(2021).

N. Deka, P. Chakraborty, D. C. Patra, S. Dhar, S. P. Mondal, Self-powered broadband photodetection using PbS decorated ZnO nanorods/reduced graphene oxide junction, Materials Science in Semiconductor Processing, 118, 105165 (2020).

S. Dhar, P. Chakraborty, N. Deka, S. P. Mondal, Broadband Photosensing Using p-type Cupric Oxide Nanorods/Conducting Polymer Schottky Junction, Chemical Physics. 529, 110578 (2019).  

P. Chakraborty, S. Dhar, N. Deka, K. Debnath, S. P. Mondal, Non-enzymatic salivary glucose detection using porous CuO nanostructures, Sensors and Actuators B: Chemical. 302, 127134 (2020). 

T. Majumder and S. P. Mondal, Graphene quantum dots as a green photosensitizer with carbon-doped ZnO nanorods for quantum-dot-sensitized solar cell applications,Bull. Mater. Sci. 42:65 (2019).  

T. Majumder, S. Dhar, P. Chakraborty, K. Debnath, S. P. Mondal, "S, N Co-Doped Graphene Quantum Dots Decorated C-Doped ZnO Nanotaper Photoanodes for Solar Cells Applications", NANO: Brief Reports and Reviews, 14(1), 1950012, (2019). (Published as Cover Article)

P. Chakraborty , S. Dhar , K. Debnath , T. Majumder and S. P. Mondal "Non-enzymatic and non-invasive glucose detection using Au nanoparticle decorated CuO nanorods", Sensors and Actuators B, 283, 776-785, (2019).

P. Chakraborty, S.Dhar, K. Debnath, S. P. Mondal "Glucose and hydrogen peroxide dual-mode electrochemical sensing using hydrothermally grown CuO nanorods ", Journal of Electroanalytical Chemistry.  833,  213-220, (2019).

S. Dhar, P. Chakraborty, T. Majumder, and S. P. Mondal"Acid Treated PEDOT:PSS Polymer and TiO2 Nanorods Schottky Junction Ultraviolet Photodetectors with Ultrahigh External Quantum Efficiency, Detectivity and Responsivity", ACS Appl. Mater. Interfaces, 2018, 10 (48), pp 41618–41626  .

 P. Chakraborty, T. Majumder, S. Dhar and S. P. Mondal, "Non-enzymatic glucose sensing using hydrothermally grown ZnO nanorods: Sensitivity augmentation by carbon doping and carbon functionalization", Materials Research Express, 5 (9) (2018).

 S. Dhar, P. Chakraborty, T. Majumder, and S. P. Mondal, "CdS Decorated Al Doped ZnO Nanorod/Polymer Schottky Junction Ultraviolet-Visible Dual Wavelength Photodetector",ACS Appl. Nano Mater., 2018, 1 (7), pp 3339–3345.

 T. Majumder, S. Dhar, P. Chakraborty, and S. P. Mondal, "Growth of Carbon-Functionalized, Carbon-Doped ZnO/C Core-Shell Nanorods for Photoelectrochemical Solar Energy Conversion", Chemistry Select, 3, pp. 4082– 4094 (2018).

T.  Majumder, S. Dhar, P. Chakraborty, K.  Debnath, S. P. Mondal," Advantages of ZnO nanotaper photoanodes in photoelectrochemical cells and graphene quantum dot sensitized solar cell applications", Journal of Electroanalytical Chemistry 813, pp. 92–101 (2018).

S. Dhar, T. Majumder, P. Chakraborty, S. P. Mondal, "DMSO modified PEDOT:PSS polymer/ZnO nanorods Schottky junction ultraviolet photodetector: Photoresponse, external quantum efficiency, detectivity, and responsivity augmentation using N doped graphene quantum dots",  Organic Electronics 53 ,pp. 101–110 (2018).

 S. Dhar, T. Majumder, S. P. Mondal, “Phenomenal improvement of external quantum efficiency, detectivity and responsivity of nitrogen doped graphene quantum dot decorated zinc oxide nanorod/polymer schottky junction UV detector” Materials Research Bulletin, 95 , pp. 198–203 (2017). 

T. Majumder, S. Dhar, K. Debnath, S. P. Mondal, “Role of S, N co-doped Graphene Quantum Dots as a Green Photosensitizer with Ag-doped ZnO Nanorods for Improved Electrochemical Solar Energy Conversion”, Materials Research Bulletin, 93, pp. 214–222 (2017). 

 T. Majumder, J. J. L. Hmar, S. Dhar, S. P. Mondal, “Superior photoelectrochemical properties of ZnO nanorods/poly (3-hexylthiophene) hybrid photoanodes”, Chemical Physics,  490, pp. 1–6 (2017). 

S. Dhar, T. Majumder and S. P. Mondal “Graphene Quantum Dot Sensitized ZnO Nanord/Polymer Schottky Junction UV Detector with Superior External Quantum Efficiency, Detectivity and Responsivity”  ACS Applied Materials & Interfaces, 8 (46), pp 31822–31831(2016).

T Majumder, K Debnath, S Dhar, JJL Hmar and S. P. Mondal, “Nitrogen‐Doped Graphene Quantum Dot‐Decorated ZnO Nanorods for Improved Electrochemical Solar Energy Conversion”, Energy Technology, 4, pp. 950-958 (2016). 

T. Majumder and S. P. Mondal, “Advantages of nitrogen-doped graphene quantum dots as a green sensitizer with ZnO nanorod based photoanodes for solar energy conversion”, Journal of Electroanalytical Chemistry, 769, pp.48-52 (2016). 

J. J. L Hmar, T. Majumder, S. Dhar and S. P. Mondal, “Sulfur and Nitrogen Co-doped graphene quantum dot decorated ZnO nanorod/polymer hybrid flexible device for photosensing applications”, Thin Solid Films, 612, pp.274-283(2016). 

S. Bera, A. K Katiyar, A. K. Sinha, S. P Mondal, S. K. Ray, “Resistive switching characteristics of a single Zn-doped CuS nanoball anchored with multi-walled carbon nanotubes” Materials & Design, 101, pp.197-203(2016). 

J. J. L Hmar, T Majumder and S. P. Mondal, “Growth and characteristics of PbS/polyvinyl alcohol nanocomposites for flexible high dielectric thin film applications, Thin Solid Films 598, pp.243-251(2016). 

T. Majumder, J. J. L. Hmar, J. N. Roy and S. P. Mondal, “Spectral Dependent Photoelectrochemical Behaviors of CdS Sensitized ZnO Nanorods”, Journal of Nanoscience and Nanotechnology, 16 (4), pp.4065-4070(2016). 

JJL Hmar, T Majumder, JN Roy and S. P. Mondal, “Flexible, transparent, high dielectric and photoconductive thin films using ZnO nanosheets-multi-walled carbon nanotube-polymer nanocomposites” Journal of Alloys and Compounds 651, pp.82-90 (2015).

JJL Hmar, T Majumder, JN Roy and S. P. Mondal, “Electrical and photoelectrochemical characteristics of flexible CdS nanocomposite/conducting polymer heterojunction” Materials Science in Semiconductor Processing 40, pp.145-151(2015). 

T. Majumder, J.J.L. Hmar, K. Debnath, N. Gogurla, J. N. Roy, S. K. Ray and S. P. Mondal, “Photoelectrochemical and photosensing behaviors of hydrothermally grown ZnO nanorods”, Journal of Applied Physics, 116, 034311 (2014).

S. Roy, A. K. Katiyar, S. P. Mondal, S. K. Ray, K. Biradha, “Multifunctional White-Light-Emitting Metal–Organic Gels with a Sensing Ability of Nitrobenzene”, ACS Applied Materials & Interfaces 6 (14), pp. 11493-11501(2014). 

S. Bera, S. P. Mondal, D. Naskar, S. C. Kundu, S. K. Ray, “Flexible and transparent nanocrystal floating gate memory devices using silk protein”, Organic Electronics, Vol. 15, pp. 1767–1772 (2014). 

N. Gogurla, S. P. Mondal, A. K. Sinha, A. K. Katiyar,W. Banerjee, S. C Kundu and S. K Ray, “Transparent and flexible resistive switching memory devices with very high ON/OFF ratio using gold nanoparticles embedded in silk protein matrix”, Nanotechnology,Vol 24, p.345202( 2013). 

S. Bera, S. P. Mondal and S. K. Ray, “Optical properties of CdSe nanoparticles embedded in polyvinyl alcohol matrix”, Journal of Nanoscience and Nanotechnology, Vol 13, pp.300-305 (2013). 

S. P. Mondal, S. Bera, G. Narender, and S. K. Ray, CdSe quantum dots-poly(3-hexylthiophene) nanocomposite sensors for selective chloroform vapor detection at room temperature”, Appl. Phys. Lett.,Vol. 101, p. 173108 (2012). 

T. Rakshit, S. P. Mondal, I. Manna and S. K. Ray, “CdS-Decorated ZnO Nanorod Heterostructures for Improved Hybrid Photovoltaic Devices” ACS Appl. Mater. Interfaces, 4 (11), pp. 6085-6095 (2012). 

S. Roy, S. P. Mondal, S. K. Ray, and K. Biradha, “A Photoswitchable and Photoluminescent Organic Semiconductor Based On Cation–p and Carboxylate–Pyridinium Interactions: A Supramolecular Approach”, Angew. Chem. Int. Ed., Vol. 51, pp. 12012-12015(2012). 

S. Manna, S. Das, S. P. Mondal, R. Singha and S. K. Ray, “High efficiency Si/CdS radial nanowire heterojunction photodetectors using etched Si nanowire templates”, J. Physical Chemistry C, Vol. 116, pp. 7126-7133 (2012).  

S. P. Mondal and S. K. Ray, “Cadmium Sulfide Based Nanostructures for Photovoltaic devices”, Proc. Natl. Acad. Sci. Sect. A Phys. Sci., Vol. 82(1), pp. 21-29 (2012). 

S. P. Mondal, P. K. Dutta,  R. A. Dweik, D. Laskowski, G. W. Hunter, B. J. Ward, “Development of High Sensitivity Potentiometric NOx Sensor and its Application to Breath Analysis”, Sensors and Actuators B: Chemical, Vol. 158, pp. 292- 298 (2011). 

G. W. Hunter, J. C. Xu, A. M. Biaggi-Labiosa, D. Laskowski, P. K. Dutta, S. P. Mondal, B. J. Ward, D. B. Makel, C.C. Liu, C. W. Chang, and R. A. Dweik, “Smart Sensor Systems for Human Health Breath Monitoring Applications”, Journal of Breath Research, Vol. 5, pp. 037111 (11pp) (2011). 

S. P. Mondal, S. K. Ray, J. Ravichandran and I. Manna, “Temperature dependent growth and optical properties of SnO2 nanowires and nanobelts”, Bulletin of Materials Science, Vol. 33, No 4, pp. 1-8 (2010). 

S. P. Mondal and S. K. Ray, “Enhanced broadband photoresponse of Ge/CdS nanowire radial heterostructures”, Applied Physics Letters, Vol. 94, p. 223119, (2009). 

S. P. Mondal, R. Aluguri and S. K. Ray, “Dielectric and transport properties of carbon nanotube-CdS nanostructures embedded in polyvinyl alcohol matrix”, Journal of Applied Physics, Vol. 105, pp. 114317-7 (2009). 

S. P. Mondal, A. Dhar, S. K. Ray and A. K. Chakraborty, “Bonding, vibrational and electrical characteristics of CdS nanostructures embedded in polyvinyl alcohol matrix”, Journal of Applied Physics, Vol. 105, pp. 084309-5 (2009). 

S. P. Mondal, V.S. Reddy, S. Das, A. Dhar and S. K. Ray, “Memory effect in a junction-like CdS nanocomposites/conducting polymer poly[2-methoxy-5-(2-ethylhexyloxy)-1,4-phenylene-vinylene] heterostructure, Nanotechnology, Vol. 19, pp. 215306 (4pp.), (2008). 

S. K. Ray and S. P. Mondal, “Synthesis of CdS Nanowires Using Nanoporous Alumina Template”, International Journal of Nanomanufacturing, Vol. 2, pp. 583-597 (2008).

S. P. Mondal, H. Mullick, T. Lavanya, A. Dhar, S.K.Lahiri and S. K. Ray, “Optical and dielectric properties of junction- like CdS nano-composites embedded in polymer matrix”, Journal of Applied Physics, Vol 102, pp. 064305-7 (2007). 

S. P. Mondal, K. Das, A. Dhar and S. K. Ray, “Characteristics of CdS nanowires grown in porous alumina template using a two- cell  method”, Nanotechnology, Vol. 80, pp. 95606 (6pp) (2007). 

S. P. Mondal, A. Dhar and S. K. Ray, “Optical properties of CdS nanowires prepared by dc electrochemical deposition in porous alumina template”, Materials Science in Semiconductor Processing, Vol. 10, pp. 185-193 (2007).