1. BSc in Chemistry, Nowgong College, 2013

2. MSc in Physical Chemistry, Gauhati University, 2015

3. MSc in PHYSICAL CHEMISTRY, GAUHATI UNIVERSITY, 2015

4. PhD: Tezpur University, Title: Design of Platinum-free Nano-electrocatalysts for Fuel Cell Reactions, 2022

5. PhD: TEZPUR UNIVERSITY, Title: Design of Platinum-free Nano Electrocatalysts for Fuel Cell Reactions, 2021

6. PhD: Tezpur University, Title: Design of Platinum-free Nano-electrocatalysts for Fuel Cell Reactions, 2021

1. Patowary, S.,Chetry, R., Goswami, C.,Chutia, B., and Bharali, P. Oxygen reduction reaction catalyzed by supported nanoparticles: Advancements and Challenges. ChemCatChem, 14:e202101472(1-23), 2022.

2. Goswami, C., Hazarika, K. K., Yamada, Y., and Bharali, P.Nonprecioushybrid metal oxide for bifunctional oxygen electrodes: endorsing the role of interfaces in electrocatalytic enhancement. Energy & Fuels, 35:13370–13381, 2021.

3. Goswami, C., Hazarika, K. K., Yamada, Y., and Bharali, P.Nonprecioushybrid metal oxide for bifunctional oxygen electrodes: endorsing the role of interfaces in electrocatalytic enhancement. Energy & Fuels, 35:13370–13381, 2021.

4. Goswami, C., Saikia, H., Borah, B. J., Kalita, M. J., Tada, K., Tanaka, S., and Bharali, P. Boosting the electrocatalytic activity of Pd/C by Cu alloying: insight on Pd/Cu composition and reaction pathway. Journal of Colloid and Interface Science, 587:446–456, 2021.

5. Goswami, C., Yamada, Y., Matus, E. V., Ismagilov, I. Z., Kerzhentsev, M., and Bharali, P. Elucidating the role of oxide–oxide/carbon interfaces of CuOx–CeO2/C in boosting electrocatalytic performance. Langmuir, 36(49):15141–15152, 2020.

6. Goswami, C., Saikia, H., Tada, K., Tanaka, S., Sudarsanam, P., Bhargava, S. K., and Bharali, P. Bimetallic palladium–nickel nanoparticles anchored on carbon as high-performance electrocatalysts for oxygen reduction and formic acid oxidation reactions. ACS Applied Energy Materials, 3(9):9285–9295, 2020.

7. Borah, B. J., Saikia, H., Goswami, C., Hazarika, K. K.,Yamada, Y., and Bharali, P. Unique half embedded/exposed PdFeCu/C interfacial nanoalloy as high-performance electrocatalyst for oxygen reduction reaction. ChemCatChem, 11:1–9, 2019.

8. Goswami, C., Hazarika, K. K., and Bharali, P. Transition metal oxide nanocatalysts for oxygen reduction reaction. Materials Science for Energy Technologies, 1(2):117–128, 2018.

9. Hazarika, K. K.,Goswami, C., Saikia, H., Borah, B. J., and Bharali, P. Cubic Mn2O3 nanoparticles on carbon as bifunctional electrocatalyst for oxygen reduction and oxygen evolution reactions. Molecular Catalysis, 451:153–160, 2018.

1. Goswami, C., Chutia, B., and Bharali, P. Metal and metal oxide-based nanomaterials for electrochemical applications. In Rajendran, S., Naushad, M., Raju K., and Boukherroub, R., editors, Emerging Nanostructured Materials for Energy and Environmental Science, volume 23 of Environmental Chemistry for a Sustainable World, pages 499–530, ISBN: 978-3-030-04473-2. Springer Cham, 2019.

2. Hazarika, K. K.,Goswami, C., and Bharali, P. Removal of persistent organic pollutants using redox active metal oxide nanocatalysts by advanced oxidation processes, In Rajendran, S., and Naushad, M.,Inorganic Materials for Energy, Medicine and Environmental Remediation,volume 69 of Environmental Chemistry for a Sustainable World, pages 215–240, ISBN:978-3-030-79899-4. Springer Cham, 2022.