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Nandanwar, Mahendra and Kumar, Sanjeev (2019) A modelling and simulation study of soluble lead redox flow battery: Effect of presence of free convection on the battery characteristics. In: JOURNAL OF POWER SOURCES, 412 . pp. 536-544.
Madabattula, Ganesh and Kumar, Sanjeev (2018) Insights into Charge-Redistribution in Double Layer Capacitors. In: JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 165 (3). A636-A649.
Nandanwar, Mahendra and Kumar, Sanjeev (2016) Charge coup de fouet phenomenon in soluble lead redox flow battery. In: CHEMICAL ENGINEERING SCIENCE, 154 . pp. 61-71.
Srivastava, Vibha and Kumar, Sanjeev (2014) Formation of hierarchical structures of Fe2O3 by the liquid-liquid interface technique. In: CRYSTENGCOMM, 16 (48). pp. 11122-11126.
Nandanwar, Mahendra N and Kumar, Sanjeev (2014) Modelling of Effect of Non-Uniform Current Density on the Performance of Soluble Lead Redox Flow Batteries. In: JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 161 (10). A1602-A1610.
Perala, Siva Rama Krishna and Kumar, Sanjeev (2014) On the Two-Step Mechanism for Synthesis of Transition-Metal Nanoparticles. In: LANGMUIR, 30 (42). pp. 12703-12711.
Perala, Siva Rama Krishna and Kumar, Sanjeev (2013) On the mechanism of metal nanoparticle synthesis in the brust-schiffrin method. In: Langmuir, 29 (31). pp. 9863-9873.
Perala, Siva Rama Krishna and Kumar, Sanjeev (2013) On the Mechanism of Phase Transfer Catalysis in Brust-Schiffrin Synthesis of Metal Nanoparticles. In: LANGMUIR, 29 (48). pp. 14756-14762.
Deshpande, Kiran B and Kumar, Sanjeev (2012) Phase inversion in agitated liquid-liquid dispersions: Anomalous effect of electrolyte. In: CHEMICAL ENGINEERING SCIENCE, 78 . pp. 33-37.
Chiney, Abhinandan and Kumar, Sanjeev (2012) On the solution of bivariate population balance equations for aggregation: Pivotwise expansion of solution domain. In: CHEMICAL ENGINEERING SCIENCE, 76 . pp. 14-25.
Zabetakis, Kara and Ghann, William E and Kumar, Sanjeev and Daniel, Marie-Christine (2012) Effect of high gold salt concentrations on the size and polydispersity of gold nanoparticles prepared by an extended Turkevich-Frens method. In: GOLD BULLETIN, 45 (4). pp. 203-211.
