Sunand Santhanagopalan, Ph.D.
Affiliations: | 2013 | Mechanical Engineering-Engineering Mechanics | Michigan Technological University, USA |
Area:
Nanotechnology, Energy, Mechanical EngineeringGoogle:
"Sunand Santhanagopalan"Parents
Sign in to add mentorDennis D. Meng | grad student | 2013 | Michigan Technological University | |
(High voltage electrophoretic deposition for electrochemical energy storage and other applications.) |
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Publications
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Zhang H, Shin D, Santhanagopalan S. (2019) Microencapsulated binary carbonate salt mixture in silica shell with enhanced effective heat capacity for high temperature latent heat storage Renewable Energy. 134: 1156-1162 |
Zhang H, Balram A, Tiznobaik H, et al. (2018) Microencapsulation of molten salt in stable silica shell via a water-limited sol-gel process for high temperature thermal energy storage Applied Thermal Engineering. 136: 268-274 |
Balram A, Zhang H, Santhanagopalan S. (2017) Enhanced Oxygen Evolution Reaction Electrocatalysis via Electrodeposited Amorphous α-phase Nickel-Cobalt Hydroxide Nanodendrite Forests. Acs Applied Materials & Interfaces |
Balram A, Zhang H, Santhanagopalan S. (2017) In situ decoration of stainless steel nanoparticles for synergistic enhancement of α-Ni(OH)2 oxygen evolution reaction catalysis Materials Chemistry Frontiers. 1: 2376-2382 |
Hossain MK, Samu GF, Gandha K, et al. (2017) Solution Combustion Synthesis, Characterization, and Photocatalytic Activity of CuBi2O4 and Its Nanocomposites with CuO and α-Bi2O3 The Journal of Physical Chemistry C. 121: 8252-8261 |
Balram A, Santhanagopalan S, Hao B, et al. (2016) Electrophoretically-Deposited Metal-Decorated CNT Nanoforests with High Thermal/Electric Conductivity and Wettability Tunable from Hydrophilic to Superhydrophobic Advanced Functional Materials |
Yuan Y, Nie A, Odegard GM, et al. (2015) Asynchronous Crystal Cell Expansion during Lithiation of K(+)-Stabilized α-MnO2. Nano Letters. 15: 2998-3007 |
Zhang H, Feng Y, Santhanagopalan S, et al. (2015) Electrophoretic deposition of gallium with high deposition rate Micromachines. 6: 32-41 |
Yuan Y, Nie A, Santhanagopalan S, et al. (2014) In-situ TEM study on electrochemical behavior of α-MnO<inf>2</inf> nanowire Microscopy and Microanalysis. 20: 496-497 |
Santhanagopalan S, Balram A, Meng DD. (2013) Scalable high-power redox capacitors with aligned nanoforests of crystalline MnO₂ nanorods by high voltage electrophoretic deposition. Acs Nano. 7: 2114-25 |