Lithium metal-mediated electrochemical reduction of per-and poly-fluoroalkyl substances, B Sarkar, RL Kumawat, P Ma, KH Wang, M Mohebi, GC Schatz, CV Amanchukwu, Nature Chemistry, 1-10, 2026.
Electrochemical reduction of PFAS, B Sarkar, CV Amanchukwu, Nature Chemistry, 2026.
From Molecules to Modules: Advanced Characterization of Membrane Systems, Y Zhu, AJ Booth, J G Eatman, M A Kim, Y Liu, B Sarkar, B Sengupta, C V Amanchukwu, S B Darling, J W Elam, P Fenter, C Liu, K B Hatzell, Advanced Materials, e13056, 2025.
Modulating water hydrogen bonding within a nonaqueous environment controls its reactivity in electrochemical transformations, R. Gomes, R. Kumar, H. Fejzik, B. Sarkar, I. Roy, C. V. Amanchukwu, Nature Catalysis 2024, 7, 689–701.
Combinatorial modulation to augment the all-round HER activity of a Ru–CrN catalyst, B Sarkar, BK Barman, A Parui, AK Singh, KK Nanda, Journal of Materials Chemistry A 12 (14), 8291-8301.
Disentangling Electronic and Geometric Effects in Electrocatalysis through Substitution in Isostructural Intermetallic Compounds, R. Zerdoumi, O. Matselko, L. Roßner, B. Sarkar, Y. Grin, and M. Armbruster, J. Am. Chem. Soc. 2022, 144, 18, 8379–8388.
Interfacial electron transfer strategy to improve the hydrogen evolution catalysis of CrP heterostructure, B. Sarkar, A. Parui, D. Das, A. Singh and K. K. Nanda, Small, 2022, 18, 2106139.
Designed synthesis of a hierarchical MoSe2@WSe2 hybrid nanostructure as a bifunctional electrocatalyst for total water-splitting, R. K. Rai, B. Sarkar, R. Ram, K. K. Nanda and N. Ravishankar, Sustain. Energy Fuels, 2022, 6, 1708-1718.
Universal avenue to metal-transition metal carbide grafted N-doped carbon framework as efficient dual Mott Schottky electrocatalysts for water splitting, G. Raj, D. Das, B. Sarkar, S. Biswas and K. K. Nanda, Sustain. Mater. Technologies, 33, e00451, 2022
Mechanistic study on Nitrogen-doped graphitic carbon-reinforced chromium nitride as durable electrocatalyst for oxygen reduction, B. Sarkar, A. Parui, A. Singh and K. K. Nanda, J. Mater. Chem. A, 2021, 9, 16575-16584.
Colloidal synthesis of MoSe2, WSe2 and their hierarchical structures as bifunctional electrocatalysts, R Rai, B Sarkar, R Ram, N Ravishankar, Microscopy and Microanalysis, 2021, 27, S1, 670-672.
Construction of noble-metal alloys of cobalt confined N-doped carbon polyhedra toward efficient water splitting, B. Sarkar, D. Das, and K. K. Nanda, Green Chem., 2020, 22, 7884-7895.
pH-dependent hydrogen evolution using spatially confined ruthenium on hollow N-doped carbon nanocages as a Mott-Schottky catalyst, B. Sarkar, D. Das, and K. K. Nanda, J. Mater. Chem. A, 2021, 9, 13958-13966.
Ruthenium nanodendrites on reduced graphene oxide: efficient water and 4-nitrophenol reduction catalyst, B. K. Barman, B. Sarkar, Ravi Nandan and Karuna Kar Nanda, New J. Chem., 2021, 45, 1556-1564.
Nickel in nitrogen-doped graphene nanotube as efficient electrocatalyst for water splitting, B. Sarkar and K. K. Nanda, AIP Conference Proceedings 2265, 030660 (2020).
In situ decoration of ultrafine Ru nanocrystals on N-doped graphene tube and their applications as oxygen reduction and hydrogen evolution catalyst, B. K. Barman*, B. Sarkar*, P. Ghosh, M. Ghosh, G. M. Rao, and K. K. Nanda, ACS Appl. Energy Mater. 2019, 2, 10, 7330-7339 (*equal contribution).
Pd-coated Ru nanocrystals supported on N-doped graphene as HER and ORR electrocatalysts, B. K. Barman, B. Sarkar, and K. K. Nanda, Chem. Commun., 2019, 55, 13928-13931.
Non-precious bimetallic CoCr nanostructures entrapped in bamboo-like nitrogen-doped graphene tube as a robust bifunctional electrocatalyst for total water splitting, B. Sarkar, B. K. Barman, K. K. Nanda, ACS Appl. Energy Mater., 2018, 1, 3, 1116-1126.
• Integrating CO2 Capture and Electrochemical Conversion Using Industrially Relevant Streams, R. J. Gomes, J. Li, J. Xu, B. Sarkar, M. Mohebi, J. Gabriel, T. Mathew, I. Roy, N. Paulson, C. Liu, C. O. Iloeje, and C. V. Amanchukwu. (under revision, Nature Energy)
More to come soon... :)