Research Publications

1) Bhat, K.S., Sarkar, A., "In-situ synthesis of nickel seleno-sulfide nano-rod arrays on three-dimensional nickel foam as efficient electrocatalyst for water oxidation", (2022) Electrochimica Acta, 407, art. no. 139886.
2) Kadam, N., Sarkar, A., "A rechargeable zinc–air battery with decoupled metal oxidation and oxygen reduction reactions", (2021) Journal of Power Sources, 510, art. no. 230375
3) Anwar, M.S., Sarkar, A., "Iron-Tungsten Redox Flow Battery", (2021) Journal of the Electrochemical Society, 168 (10), art. no. 100540.
4) Ibrahim, A., Memon, U.B., Duttagupta, S.P., Raman, R.S., Sarkar, A., Pendharkar, G., Tatiparti, S.S.V. Hydrogen gas sensing of nano-confined Pt/g-C3N4 composite at room temperature (2021) International Journal of Hydrogen Energy, 46 (46), pp. 23962-23973. 
5) Mahesh, I., Sarkar, A. Scalable Production of Monolayer Shell(Pt)@Core(Pd) Nanoparticles by Electroless Cu UPD for Oxygen Reduction Reaction (2021) Electrocatalysis, 12 (2), pp. 127-136.
6) Dasari, S., Sarkar, A., Sharma, A., Gwalani, B., Choudhuri, D., Soni, V., Manda, S., Samajdar, I., Banerjee, R., "Recovery of cold-worked Al0.3CoCrFeNi complex concentrated alloy through twinning assisted B2
precipitation, (2021) Acta Materialia, 202, pp. 448-462.  
7) Karajagi, I., Ramya, K., Ghosh, P.C., Sarkar, A., Rajalakshmi, N. ,"Co-doped carbon materials synthesized with polymeric precursors as bifunctional electrocatalysts" (2020) RSC Advances, 10 (59), pp. 35966-35978.
8) Ibrahim, A., Memon, U.B., Duttagupta, S.P., Mahesh, I., Raman, R.K.S., Sarkar, A., Pendharkar, G., Tatiparti, S.S.V. "Nano-structured palladium impregnate graphitic carbon nitride composite for efficient hydrogen gas sensing",  (2020) International Journal of Hydrogen Energy, 45 (17), pp. 10623-10636. 
9) Karajagi, I., Ramya, K., Ghosh, P.C., Sarkar, A., Rajalakshmi, N., "Nickel integrated carbon electrodes for improved stability", (2020) Journal of the Electrochemical Society, 167 (13), art. no. 130510.
10) K., I., K., R., Ghosh, P.C., Sarkar, A., N., R., "Ion Immobilized Bifunctional Electrocatalyst for Oxygen Reduction and Evolution Reaction", (2019) ACS Applied Energy Materials, 2 (11), pp. 7811-7822. 
11) Gupta, S., Jadhav, H., Sinha, S., Miotello, A., Patel, M.K., Sarkar, A., Patel, N., "Cobalt-Boride Nanostructured Thin Films with High Performance and Stability for Alkaline Water Oxidation",  (2019) ACS Sustainable Chemistry and Engineering, 7 (19), pp. 16651-16658. 
12) Sankannavar, R., Sandeep, K.C., Kamath, S., Suresh, A.K., Sarkar, A., "High oxygen evolution reaction activity on lithiated nickel oxides - Activity descriptors", (2019) Electrochimica Acta, 318, pp. 809-819. 
13) Ibrahim, A., Memon, U.B., Kumar, J.P., Duttagupta, S.P., Raman, R.K.S., Sarkar, A., Pendharkar, G., Tatiparti, S.S.V., "Synthesis, structural and morphological property of a novel Pd/g-CN nano composite for gas sensing application", (2019) IOP Conference Series: Materials Science and Engineering, 499 (1), art. no. 012003.
14) Kumawat, A.S., Sarkar, A., “Electrochemical reduction of CO2 on Pb–Bi–Sn metal mixtures: importance of eutectics”, (2019) SN Applied Sciences, 1 (4), art. no. 317
15) Giri, S.D., Sarkar, A. "Estimating surface area of copper powder: A comparison between electrochemical, microscopy and laser diffraction methods", (2018) Advanced Powder Technology, 29 (12), pp. 3520-3526. 
16) Mahesh, I., Sarkar, A., "Scale-Up Process of Core@Shell Monolayer Catalyst without Active Potential Control through Electroless Underpotential Deposition Galvanic Replacement", (2018) ChemistrySelect, 3 (41), pp. 11622-11626.
17) Kumar, J.P., Giri, S.D., Sarkar, A. "Mesoporous NiO with different morphology: Synthesis, characterization and their evaluation for oxygen evolution reaction", (2018) International Journal of Hydrogen Energy, 43 (33), pp. 15639-15649. 
18) Memon, U.B., Ibrahim, A., Pattanayak, A., Duttagupta, S.P., Sarkar, A., Singh Raman, R.K., "A simulation study of terahertz dielectric resonator using graphitic carbon nitride", (2018) MIKON 2018 - 22nd International Microwave and Radar Conference, pp. 722-725.
19) Chauhan, N.L., Dameera, V., Chowdhury, A., Juvekar, V.A., Sarkar, A., "Electrochemical oxidation of ethylene glycol in a channel flow reactor", (2018) Catalysis Today, 309, pp. 126-132. 
20) Gupta, S., Yadav, A., Bhartiya, S., Singh, M.K., Miotello, A., Sarkar, A., Patel, N., "Co oxide nanostructures for electrocatalytic water-oxidation: Effects of dimensionality and related properties",  (2018) Nanoscale, 10 (18), pp. 8806-8819.

21) Mahesh, I., Sarkar, A., "Self-Restraining Electroless Deposition for Shell@Core Particles and Influence of Lattice Parameter on the ORR Activity of Pt(Shell)@Pd(Core)/C Electrocatalyst", (2018) Journal of Physical Chemistry C, 122 (17), pp. 9283-9291
22) Sankannavar, R., Sarkar, A. “The electrocatalysis of oxygen evolution reaction on La1−xCaxFeO3−Δ perovskites in alkaline solution”, (2018) International Journal of Hydrogen Energy, 43 (9), pp. 4682-4690.

 23) Sankannavar, R., Sandeep, K.C., Kamath, S., Suresh, A.K., Sarkar, A., “Impact of strontium-substitution on oxygen evolution reaction of lanthanum nickelates in alkaline solution”, (2018) Journal of the Electrochemical Society, 165 (15), pp. J3236-J3245.

24) Chauhan, N.L., Dameera, V., Juvekar, V.A., Mahajani, S.M., Suresh, A.K., Sarkar, A., “Correlation of chemical and electrochemical catalysis-importance of half reactions: The case of catalytic oxidation of ferrous sulfate by molecular oxygen”,  (2018) Journal of the Electrochemical Society, 165 (5), pp. H196-H204.
25) Mahesh, I., Jaithaliya, R., Sarkar, A., “Efficient electrooxidation of ethanol on Bi@Pt/C nanoparticles: (i) Effect of monolayer Bi deposition on specific sites of Pt nanoparticle (ii) Calculation of average number of e-s without help of chemical analysis”,  (2017) Electrochimica Acta, 258, pp. 933-941.

26) Maldar, P.S., Mane, A.A., Nikam, S.S., Giri, S.D., Sarkar, A., Moholkar, A.V.,  “Correction to: Temperature dependent properties of spray deposited Cu2CoSnS4 (CCTS) thin films (J Mater Sci: Mater Electron, 10.1007/s10854-017-7842-1)”,  (2017) Journal of Materials Science: Materials in Electronics, 28 (24), p. 18897.
27) Maldar, P.S., Mane, A.A., Nikam, S.S., Giri, S.D., Sarkar, A., Moholkar, A.V., “Temperature dependent properties of spray deposited Cu2CoSnS4 (CCTS) thin films”, (2017) Journal of Materials Science: Materials in Electronics, 28 (24), pp. 18891-18896.
28) Kumawat, A.S., Sarkar, A. “Comparative study of carbon supported Pb, Bi and Sn catalysts for electroreduction of carbon dioxide in alkaline medium”, (2017) Journal of the Electrochemical Society, 164 (14), pp. H1112-H1120.
29) Maldar, P.S., Gaikwad, M.A., Mane, A.A., Nikam, S.S., Desai, S.P., Giri, S.D., Sarkar, A., Moholkar, A.V., “Fabrication of Cu2CoSnS4 thin films by a facile spray pyrolysis for photovoltaic application”,  (2017) Solar Energy, 158, pp. 89-99.
30) Mahesh, I., Sarkar, A., “Electrochemical Study of Oxygen Reduction on a Carbon-Supported Core-Shell Platinum-Gold with Tuneable Gold Surface Composition”,  (2016) ChemElectroChem, 3 (5), pp. 836-845.
31) Giri, S.D., Sarkar, A., Mahajani, S.M., Suresh, A.K., “Electrochemical reduction of CO2 on copper oxidized by electrochemical methods”, (2016) ECS Transactions, 75 (48), pp. 19-31.
32) Chauhan, N.L., Juvekar, V.A., Mahajani, S.M., Suresh, A.K., Sarkar, A., “Validation of mixed potential theory using formic acid and ferric ion as a redox couple”,  (2016) ECS Transactions, 75 (48), pp. 39-47.
33) Giri, S.D., Sarkar, A., “Electrochemical study of bulk and monolayer copper in alkaline solution”,  (2016) Journal of the Electrochemical Society, 163 (3), pp. H252-H259.

34) Sarkar, A., Kerr, J.B., Cairns, E.J. ,“Electrochemical oxygen reduction behavior of selectively deposited platinum atoms on gold nanoparticles”, (2013) ChemPhysChem, 14 (10), pp. 2132-2142.
35) Sarkar, A., Zhu, X., Nakanishi, H., Kerr, J.B., Cairns, E.J., “Investigation into electrochemical oxygen reduction on platinum in tetraethylammonium hydroxide and effect of addition of imidazole and 1,2,4-triazole”,  (2012) Journal of the Electrochemical Society, 159 (10), pp. F628-F634.
36) Zhao, J., Sarkar, A., Manthiram, A., “Synthesis and characterization of Pd-Ni nanoalloy electrocatalysts for oxygen reduction reaction in fuel cells”, (2010) 10AIChE - 2010 AIChE Spring Meeting and 6th Global Congress on Process Safety, 1 p.
37) Sarkar, A., Murugan, A.V., Manthiram, A., “ Rapid microwave-assisted solvothermal synthesis of methanol tolerant Pt-Pd-Co nanoalloy electrocatalysts”, (2010) Fuel Cells, 10 (3), pp. 375-383

38) Sarkar, A., Manthiram, A., “Synthesis of Pt@Cu Core-shell nanoparticles by galvanic displacement of Cu by Pt4+ ions and their application as electrocatalysts for oxygen reduction reaction in fuel cells”, (2010) Journal of Physical Chemistry C, 114 (10), pp. 4725-4732.
39) Sarkar, A., Murugan, A.V., Manthiram, A., “Pt-encapsulated Pd-Co nanoalloy electrocatalysts for oxygen reduction reaction in fuel cells”, (2010) Langmuir, 26 (4), pp. 2894-2903.
40) Zhao, J., Sarkar, A., Manthiram, A., “Synthesis and characterization of Pd-Ni nanoalloy electrocatalysts for oxygen reduction reaction in fuel cells”, (2010) Electrochimica Acta, 55 (5), pp. 1756-176541)

41) Sarkar, A., Murugan, A.V., Manthiram, A., “Low cost Pd-W nanoalloy electrocatalysts for oxygen reduction reaction in fuel cells”, (2009) Journal of Materials Chemistry, 19 (1), pp. 159-165.
42) Manthiram, A., Vadivel Murugan, A., Sarkar, A., Muraliganth, T., “Nanostructured electrode materials for electrochemical energy storage and conversion”, (2008) Energy and Environmental Science, 1 (6), pp. 621-638.  
43) Sarkar, A., Murugan, A.V., Manthiram, A., “Synthesis and characterization of nanostructured Pd-Mo electrocatalysts for oxygen reduction reaction in fuel cells”, (2008) Journal of Physical Chemistry C, 112 (31), pp. 12037-12043.
44) Sarkar, A., Banerjee, R., “Net energy analysis of hydrogen storage options”, (2005) International Journal of Hydrogen Energy, 30 (8), pp. 867-877.
45) Sarkar, A., Banerjee, “R. A quantitative method for characterization of carbon nanotubes for hydrogen storage”,  (2004) International Journal of Hydrogen Energy, 29 (14), pp. 1487-1491.