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Sathish Rajendran
Sathish Rajendran
Wayne State University, Argonne National Laboratory
Verified email at anl.gov
Title
Cited by
Cited by
Year
Inhibition of Lithium Dendrite Formation in Lithium Metal Batteries via Regulated Cation Transport through Ultrathin Sub‐Nanometer Porous Carbon Nanomembranes
S Rajendran, Z Tang, A George, A Cannon, C Neumann, A Sawas, ...
Advanced Energy Materials, 2100666, 2021
652021
Tri-Doped BaCeO3–BaZrO3 as a Chemically Stable Electrolyte with High Proton-Conductivity for Intermediate Temperature Solid Oxide Electrolysis Cells (SOECs)
S Rajendran, NK Thangavel, H Ding, Y Ding, D Ding, LM Reddy Arava
ACS applied materials & interfaces 12 (34), 38275-38284, 2020
572020
Coir pith derived bio-carbon: demonstration of potential anode behavior in lithium-ion batteries
V Mullaivananathan, R Sathish, N Kalaiselvi
Electrochimica Acta 225, 143-150, 2017
532017
An all-solid-state battery with a tailored electrode–electrolyte interface using surface chemistry and interlayer-based approaches
S Rajendran, A Pilli, O Omolere, J Kelber, LMR Arava
Chemistry of Materials 33 (9), 3401-3412, 2021
402021
Exploration of microporous bio-carbon scaffold for efficient utilization of sulfur in lithium-sulfur system
K Balakumar, R Sathish, N Kalaiselvi
Electrochimica Acta 209, 171-182, 2016
352016
Cerium doped nickel-oxide nanostructures for riboflavin biosensing and antibacterial applications
P Muthukumaran, CV Raju, C Sumathi, G Ravi, D Solairaj, ...
New Journal of Chemistry 40 (3), 2741-2748, 2016
322016
Toward moisture-stable and dendrite-free garnet-type solid-state electrolytes
S Rajendran, NK Thangavel, K Mahankali, LMR Arava
ACS Applied Energy Materials 3 (7), 6775-6784, 2020
272020
Y, Gd, and Pr tri-doped perovskite-type proton conducting electrolytes with improved sinterability and chemical stability
S Rajendran, NK Thangavel, S Alkatie, Y Ding, LMR Arava
Journal of Alloys and Compounds 870, 159431, 2021
262021
In situ x-ray photoelectron spectroscopy study of lithium carbonate removal from garnet-type solid-state electrolyte using ultra high vacuum techniques
JC Jones, S Rajendran, A Pilli, V Lee, N Chugh, LMR Arava, JA Kelber
Journal of Vacuum Science & Technology A 38 (2), 2020
162020
Metal-Based Electrocatalysts for High-Performance Lithium-Sulfur Batteries: A Review
K Mahankali, S Nagarajan, NK Thangavel, S Rajendran, M Yeddala, ...
Catalysts 10 (10), 1137, 2020
152020
Anisotropic mass transport using ionic liquid crystalline electrolytes to suppress lithium dendrite growth
D Gopalakrishnan, S Alkatie, A Cannon, S Rajendran, NK Thangavel, ...
Sustainable Energy & Fuels 5 (5), 1488-1497, 2021
122021
Effect of reaction time on the synthesis of cadmium selenide nanoparticles and the efficiency of solar cell
IRC Rose, R Sathish, AJ Rajendran, P Sagayaraj
Journal of Materials and Environmental Science 7, 1589-1596, 2016
112016
Regulating Li‐Ion Transport through Ultrathin Molecular Membrane to Enable High‐Performance All‐Solid‐State–Battery
S Rajendran, A George, Z Tang, C Neumann, A Turchanin, LMR Arava
Small 19 (44), 2303625, 2023
72023
Cell-format-dependent mechanical damage in silicon anodes
MTF Rodrigues, S Rajendran, SE Trask, AR Dunlop, A Singh, JM Allen, ...
ACS Applied Energy Materials 6 (18), 9243-9248, 2023
32023
Consequences of utilizing a redox-active polymeric binder in Li-ion batteries
S Rajendran, H Liu, SE Trask, B Key, AN Jansen, MTF Rodrigues
Journal of Power Sources 583, 233584, 2023
12023
A Proton Conducting Solid Oxide Electrolysis Cell with Tri-Doping Electrolyte and Three-Phase Conducting Steam Electrode for Sustainable Hydrogen Production
H Ding, S Rajendran, L Arava, Y Ding, NK Thangavel, K Centeck, D Ding
Electrochemical Society Meeting Abstracts 236, 1802-1802, 2019
12019
Structural, Optical, Dielectric and Photovoltaic Application of Mn, doped Zinc Selenide Nanoparticles
IRC Rose, FM Raj, R Sathish, AJ Rajendran
Journal of Chemical and Pharmaceutical Sciences ISSN 974, 2115, 2015
12015
Electrochemical Instability of Room-Temperature Ionic Liquids with LiTFSI at Elevated Temperature and its Consequences in Li/Li-ion based Half-cells and Full-cells
S Rajendran, VS Ganesan, LMR Arava
Electrochimica Acta, 144599, 2024
2024
HIGH TEMPERATURE LITHIUM-ION BATTERY AND METHOD OF MAKING SAME
LM Reddy Arava, S Rajendran
US Patent App. 18/238,648, 2024
2024
Inhibition of lithium dendrite growth using ultra-thin sub-nanometer porous carbon nanomembrane in conventional and solid-state lithium-ion batteries
LMR Arava, NK Thangavel, S Rajendran, Z Tang, A George, A Turchanin
US Patent App. 17/923,360, 2023
2023
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