Mohua Chakraborty
@cgu-odisha.ac.in
Scopus Publications
Scholar Citations
Scholar h-index
Scholar i10-index
Scopus Publications
Dhrubojyoti Roy, Bijaya Kumar Panda, Chintak Kamalesh Parashar, Mohua Chakraborty
Materials Science and Engineering B, 2026
Trupti Tanaya Mishra, Mohua Chakraborty, Chintak Kamalesh Parashar, Partho Sarathi Gooh Pattadar, Dhrubojyoti Roy
Journal of Alloys and Compounds, 2026
Trupti Tanaya Mishra, Manisha Sadangi, J. N. Behera, Mohua Chakraborty, Dhrubojyoti Roy
Sustainable Energy and Fuels, 2026
Porous CoNiMoS nanoflower electrodes synthesized through sulfur-tuning to modulate morphology and charge transport for high-performance supercapacitor applications.
Mohua Chakraborty, Aradhana Biswal, Debi Prasad Beura, Dwititapa Mohanty, Trupti Tanaya Mishra, et al.
Energy and Fuels, 2025
Venkataramanan Mahalingam, Mohua Chakraborty, Harish Reddy Inta, Avishek Roy, Murthy Koppsetti, et al.
Sustainable Energy and Fuels, 2025
Transition metal carbonate hydroxides (TMCH) possess impressive theoretical capacitance, rapid ion transfer ability, and minimal volume expansion during long charge-discharge cycles. Increasing the electrochemical active surface area/porosity of the material...
Trupti Tanaya Mishra, Mohua Chakraborty, Chintak Kamalesh Parashar, Partho Sarathi Gooh Pattader, Franco Mayanglambam, et al.
Chemnanomat, 2025
The present study investigates the impact of incorporating iron (Fe) into nickel cobalt selenides (NiCoSe) to develop an advanced anode electrode material for supercapacitors. Multicomponent iron‐nickel‐cobalt‐selenides (FeNiCoSe) nanostructures are synthesized using a single‐step selenization process with varying iron content substituting nickel. The optimized FeNiCoSe, with 75% Fe substitution in NiCoSe electrode, demonstrates a high specific capacitance of 1442.2 F g−1 at current density of 1 A g−1 along with a long‐term durability and 82.1% capacitance retention rate after 10,000 cycles. The electrode exhibits stable performance across a broad voltage range of 0.0–0.8 V. Brunauer–Emmett–Teller analysis reveals a specific surface area of 79.27 m2 g−1 and a pore diameter of 3.155 nm of the materials, indicating substantial surface area and porosity conducive to enhanced electrochemical activity. The incorporation of Fe into NiCoSe enhances the charge transfer and increases the availability of electroactive sites, leading to improved electronic conductivity and faster charge–discharge kinetics. The synergetic effect of multimetallic components is a key factor in achieving improved performance of the FeNiCoSe electrode material compared to bimetallic electrode materials NiCoSe and FeCoSe. The findings highlight the potential of FeNiCoSe electrode material as high‐performance supercapacitors.
Fefet Devices Trends Technology and Applications, 2025
Trupti Tanaya Mishra, Mohua Chakraborty, Chintak Kamalesh Parashar, Jiwajyoti Mahanta, Partho Sarathi Gooh Pattader, et al.
Journal of Materials Science Materials in Electronics, 2025
Dhrubojyoti Roy, Mohua Chakraborty, Partho Sarathi Gooh Pattader, A. K. M. Maidul Islam, Dipankar Bandyopadhyay
Macromolecular Rapid Communications, 2024
The present study elucidates the role of annealing with electric field on lamellar crystalline structure and molecular orientation of polymer chains in ferroelectric copolymer (P(VDF‐TrFE)) and ferroelectric terpolymer (P(VDF‐TrFE‐CFE)) spin‐coated thin films. The ferroelectric polymer thin films annealed under an electric field support the growth of nanostructure with an “edge‐on” lamellar crystalline structure having in‐plane molecular chain orientation. The poled P(VDF‐TrFE) thin films have higher remnant polarization (Pr) ≈6.2 µC cm−2 and saturation polarization (Ps) ≈8.2 µC cm−2 at an applied electric field of 250 MV/m compared to unpoled thin films having Pr ≈4.7 and Ps ≈6.2 µC cm−2. Also, poled P(VDF‐TrFE) thin films show lower coercive field (Ec) ≈94 MV/m compared to an unpoled thin film having Ec ≈105 MV/m. Similarly, poled PVDF‐TrFE‐CFE thin film shows better ferroelectric properties having Pr ≈0.4 and Ps ≈5.7 µC cm−2 at an applied electric field of 200 MV m−1 compared to unpoled thin films having Pr ≈0.4 and Ps ≈4.1 µC cm−2. The storage energy efficiency of unpoled and poled P(VDF‐TrFE‐CFE) thin films is measured to be ≈75% and 80%. Annealing of ferroelectric P(VDF‐TrFE) polymer thin films under an electric field demonstrates improved ferroelectric and electroactive properties.
Trupti Tanaya Mishra, Mohua Chakraborty, J. N. Behera, Dhrubojyoti Roy
Energy and Fuels, 2024
Dhrubojyoti Roy, Trupti Tanaya Mishra, Chintak Kamalesh Parashar, Kaniska Murmu, Mohua Chakraborty
Journal of Materials Engineering and Performance, 2024
Mohua Chakraborty, R. Thangavel, Dhrubojyoti Roy
Journal of Sol Gel Science and Technology, 2023
Sourav Ghosh, Harish Reddy Inta, Mohua Chakraborty, Gouri Tudu, Heramba V. S. R. M. Koppisetti, et al.
ACS Applied Nano Materials, 2022
Dhrubojyoti Roy, Partho Sarathi Gooh Pattader, Dipankar Bandyopadhyay, Mohua Chakraborty, Chia-Hsin Wang, et al.
ACS Applied Electronic Materials, 2020
Mohua Chakraborty, Sourav Ghosh, Venkataramanan Mahalingam
Sustainable Energy and Fuels, 2020
Dhrubojyoti Roy, Mohua Chakraborty, P.S. Gupta
Applied Surface Science, 2019
Mohua Chakraborty, Dhrubojyoti Roy, Akash Sharma, R. Thangavel
Solar Energy Materials and Solar Cells, 2019
Mohua Chakraborty, R. Thangavel, Philomela Komninou, Ziyou Zhou, Arunava Gupta
Journal of Alloys and Compounds, 2019
Akash Sharma, Mohua Chakraborty, R. Thangavel
Journal of Materials Science Materials in Electronics, 2018
Akash Sharma, Mohua Chakraborty, Zeeshan Anwar, Pooja Sahoo, R. Thangavel
2017 International Conference on Energy Communication Data Analytics and Soft Computing Icecds 2017, 2018
Akash Sharma, Mohua Chakraborty, R. Thangavel
Aip Conference Proceedings, 2018
Mohua Chakraborty, R. Thangavel, K. Asokan
Aip Conference Proceedings, 2018
Akash Sharma, Mohua Chakraborty, R. Thangavel, G. Udayabhanu
Journal of Sol Gel Science and Technology, 2018
A Viswanath Gowd, Mohua Chakraborty, R Thangavel, K. Ashokan, J. Kumar
International Conference on Electrical Electronics and Optimization Techniques Iceeot 2016, 2016
Mohua Chakraborty, Preetilata Mahapatra, R. Thangavel
Thin Solid Films, 2016
Mohua Chakraborty, Preetilata Mahapatra, R. Thangavel
Aip Conference Proceedings, 2016
Mohua Chakraborty, R. Thangavel, Amrita Biswas, G. Udayabhanu
Crystengcomm, 2016
Mohua Chakraborty, Anima Ghosh, R. Thangavel, K. Asokan
Journal of Alloys and Compounds, 2016
Mohua Chakraborty, Dhrubojyoti Roy, Amrita Biswas, R. Thangavel, G. Udayabhanu
Rsc Advances, 2016
Mohua Chakraborty, R. Thangavel
Aip Conference Proceedings, 2015
Mohua Chakraborty, Anima Ghosh, R. Thangavel
Journal of Sol Gel Science and Technology, 2015
RECENT SCHOLAR PUBLICATIONS
D Roy, BK Panda, CK Parashar, M Chakraborty
Materials Science and Engineering: B 325, 119143 , 2026
2026
Citations: 2
TT Mishra, M Chakraborty, CK Parashar, PSG Pattadar, D Roy
Journal of Alloys and Compounds, 186367 , 2026
2026
Citations: 1
TT Mishra, M Sadangi, JN Behera, M Chakraborty, D Roy
Sustainable Energy & Fuels 10 (1), 364-374 , 2026
2026
M Chakraborty, A Biswal, DP Beura, D Mohanty, TT Mishra, S Mishra, ...
Energy & Fuels 39 (35), 16715-16736 , 2025
2025
Citations: 7
D Roy, M Chakraborty, D Bandyopadhyay, PSG Pattader
FeFET Devices, Trends, Technology and Applications, 27-55 , 2025
2025
Citations: 3
TT Mishra, M Chakraborty, CK Parashar, PSG Pattader, F Mayanglambam, ...
Chemnanomat 11 (5), e202400635 , 2025
2025
Citations: 5
M Chakraborty, HR Inta, A Roy, HV Koppisetti, S Ghosh, N Bhandary, ...
Sustainable Energy & Fuels 9 (16), 4337-4351 , 2025
2025
Citations: 7
TT Mishra, M Chakraborty, CK Parashar, J Mahanta, PSG Pattader, D Roy
Journal of Materials Science: Materials in Electronics 36 (3), 180 , 2025
2025
Citations: 4
D Roy, M Chakraborty, PSG Pattader, AKMM Islam, D Bandyopadhyay
Macromolecular Rapid Communications 45 (22), 2400496 , 2024
2024
Citations: 11
D Roy, TT Mishra, CK Parashar, K Murmu, M Chakraborty
Journal of Materials Engineering and Performance 33 (11), 5439-5445 , 2024
2024
Citations: 12
TT Mishra, M Chakraborty, JN Behera, D Roy
Energy & Fuels 38 (11), 9186-9217 , 2024
2024
Citations: 49
M Chakraborty, R Thangavel, D Roy
Journal of Sol-Gel Science and Technology 107 (2), 467-473 , 2023
2023
Citations: 3
S Ghosh, HR Inta, M Chakraborty, G Tudu, HV Koppisetti, KS Paliwal, ...
ACS Applied Nano Materials 5 (5), 7246-7258 , 2022
2022
Citations: 33
D Roy, PS Gooh Pattader, D Bandyopadhyay, M Chakraborty, CH Wang, ...
ACS Applied Electronic Materials 2 (10), 3187-3198 , 2020
2020
Citations: 15
M Chakraborty, S Ghosh, V Mahalingam
Sustainable Energy & Fuels 4 (3), 1507-1514 , 2020
2020
Citations: 23
D Roy, M Chakraborty, PS Gupta
Applied Surface Science 490, 492-501 , 2019
2019
Citations: 5
M Chakraborty, R Thangavel, P Komninou, Z Zhou, A Gupta
Journal of Alloys and Compounds 776, 142-148 , 2019
2019
Citations: 45
M Chakraborty, D Roy, A Sharma, R Thangavel
Solar Energy Materials and Solar Cells 200, 109975 , 2019
2019
Citations: 26
A Sharma, M Chakraborty, R Thangavel
Journal of Materials Science: Materials in Electronics 29 (17), 14710-14722 , 2018
2018
Citations: 22
M Chakraborty, R Thangavel, K Asokan
AIP Conference Proceedings 1953 (1), 050047 , 2018
2018
Citations: 7
MOST CITED SCHOLAR PUBLICATIONS
M Chakraborty, A Ghosh, R Thangavel
Journal of Sol-Gel Science and Technology 74 (3), 756-764 , 2015
2015
Citations: 52
TT Mishra, M Chakraborty, JN Behera, D Roy
Energy & Fuels 38 (11), 9186-9217 , 2024
2024
Citations: 49
M Chakraborty, R Thangavel, P Komninou, Z Zhou, A Gupta
Journal of Alloys and Compounds 776, 142-148 , 2019
2019
Citations: 45
M Chakraborty, P Mahapatra, R Thangavel
Thin Solid Films 612, 49-54 , 2016
2016
Citations: 42
A Sharma, M Chakraborty, R Thangavel, G Udayabhanu
Journal of Sol-Gel Science and Technology 85 (1), 1-11 , 2018
2018
Citations: 40
S Ghosh, HR Inta, M Chakraborty, G Tudu, HV Koppisetti, KS Paliwal, ...
ACS Applied Nano Materials 5 (5), 7246-7258 , 2022
2022
Citations: 33
M Chakraborty, D Roy, A Biswas, R Thangavel, G Udayabhanu
RSC advances 6 (79), 75063-75072 , 2016
2016
Citations: 31
M Chakraborty, D Roy, A Sharma, R Thangavel
Solar Energy Materials and Solar Cells 200, 109975 , 2019
2019
Citations: 26
M Chakraborty, R Thangavel, A Biswas, G Udayabhanu
CrystEngComm 18 (17), 3095-3103 , 2016
2016
Citations: 25
M Chakraborty, S Ghosh, V Mahalingam
Sustainable Energy & Fuels 4 (3), 1507-1514 , 2020
2020
Citations: 23
A Sharma, M Chakraborty, R Thangavel
Journal of Materials Science: Materials in Electronics 29 (17), 14710-14722 , 2018
2018
Citations: 22
M Chakraborty, A Ghosh, R Thangavel, K Asokan
Journal of Alloys and Compounds 664, 682-689 , 2016
2016
Citations: 17
D Roy, PS Gooh Pattader, D Bandyopadhyay, M Chakraborty, CH Wang, ...
ACS Applied Electronic Materials 2 (10), 3187-3198 , 2020
2020
Citations: 15
D Roy, TT Mishra, CK Parashar, K Murmu, M Chakraborty
Journal of Materials Engineering and Performance 33 (11), 5439-5445 , 2024
2024
Citations: 12
D Roy, M Chakraborty, PSG Pattader, AKMM Islam, D Bandyopadhyay
Macromolecular Rapid Communications 45 (22), 2400496 , 2024
2024
Citations: 11
M Chakraborty, A Biswal, DP Beura, D Mohanty, TT Mishra, S Mishra, ...
Energy & Fuels 39 (35), 16715-16736 , 2025
2025
Citations: 7
M Chakraborty, HR Inta, A Roy, HV Koppisetti, S Ghosh, N Bhandary, ...
Sustainable Energy & Fuels 9 (16), 4337-4351 , 2025
2025
Citations: 7
M Chakraborty, R Thangavel, K Asokan
AIP Conference Proceedings 1953 (1), 050047 , 2018
2018
Citations: 7
TT Mishra, M Chakraborty, CK Parashar, PSG Pattader, F Mayanglambam, ...
Chemnanomat 11 (5), e202400635 , 2025
2025
Citations: 5
D Roy, M Chakraborty, PS Gupta
Applied Surface Science 490, 492-501 , 2019
2019
Citations: 5