Dr. Sourav Ghosh
Qualification : Ph.D. (IIT, Madras)
Details of Educational Qualification:
Course | Specialization | Group | College Name/University | Year of Passing |
---|---|---|---|---|
Ph.D. | Interdisciplinary Research Program | Interdisciplinary Research Program | Indian Institute of Technology Madras | 2022 |
M.Tech. | Nanotechnology | Electronics and Communication Engineering | Vellore Institute of Technology | 2017 |
B.Tech. | Electronics and Communication Engineering | Electronics and Communication Engineering | Kalyani Government Engineering College | 2014 |
List of Publications
S.No | Title of the Paper | Full Details of Journal Name / Conference Name, Volume number, page number, Date |
---|---|---|
1 | Machine learning-based prediction of supercapacitor performance for a novel electrode material: cerium oxynitride | Energy Storage Materials, 2021, 40, 426. [Impact Factor: 20.831] |
2 | Ceria for supercapacitors: Dopant prediction, and validation in a device | Applied Materials Today, 2020, 21, 100872. 40, 426. [Impact Factor: 8.663] |
3 | Analysis of charge storage behavior in redox-electrolyte based battery-like systems: A case study on Zr-doped ceria | ChemistrySelect, 2020, 5, 1628. [Impact Factor: 2.307] |
4 | Zr substitution aided enhancement of pseudocapacitive behavior of ceria | Materials Letters, 2020, 266, 127500. [Impact Factor: 3.574] |
5 | Natural biomass derived hard carbon and activated carbons as electrochemical supercapacitor electrodes | Scientific Reports, 2019, 9, 16315. [Impact Factor: 4.996] |
6 | Comparison of the electrochemical performance of CeO2 and rare earth-based mixed metallic oxide (Ce0.9Zr0.1O2) for supercapacitor applications | ICAMEES, UPES, India, 2018. https://arxiv.org/abs/2101.02907 Co-authored research articles |
7 | Machine learning aided cyclic stability prediction for supercapacitors | Journal of Power Sources, 2022, 546, 231975. [#co-corresponding author] [Impact Factor: 9.794] |
8 | Nanocomposites of digestively ripened copper oxide quantum dots and graphene oxide as a binder free battery-like supercapacitor electrode material | Electrochimica Acta, 2019, 321, 134709. [Impact Factor: 7.336] |
9 | Chromium oxynitride as durable electrode material for symmetric supercapacitors | Batteries & Supercaps, 2020, 3, 780. [Impact Factor: 6.043] |
10 | Heteroatom doped graphene based hybrid electrode materials for supercapacitor applications | Electrochimica Acta, 2018, 276, 284. [Impact Factor: 7.336] 4 |
11 | Synthesis of NiS–graphene nanocomposites and its electrochemical performance for supercapacitors | International Journal of Nanoscience, 2017, 16, 1760021. |
12 | Techno-economic understanding of Indian energy-storage market: a perspective on green materials-based supercapacitor technologies | Renewable and Sustainable Energy Reviews, 2022, 161, 112412. [Impact Factor: 16.799] |
13 | Metal Oxynitrides as Promising Electrode Materials for Supercapacitor Applications | ChemElectroChem, 2019, 6, 1255. [*Equal first-authorship] [Impact Factor: 4.782] |
Book Chapters
- M.L. Aparna*, Sourav Ghosh*, G. Ranga Rao, Tiju Thomas, “Current status, research gaps, and future scope for nanomaterials in energy storage technologies.” [under process for publication, *equal first-authorship, CRC Press, Taylor & Francis]
- Barkha Rani, Sourav Ghosh, U. Naveen Kumar, Niroj Sahu, Tiju Thomas, “Metal Carbides and Nitrides for Energy Storage Application.” [under process for publication, CRC Press, Taylor & Francis]
- Sourav Ghosh#, G. Ranga Rao, Tiju Thomas#, “Machine Learning in Electrochemical Energy Storage: Practice and Discussion.” [under process for publication, #co-corresponding author, Scientific Research Publishing, Inc.]