Michael Wang
Title
Cited by
Cited by
Year
Flexible and stretchable power sources for wearable electronics
AM Zamarayeva, AE Ostfeld, M Wang, JK Duey, I Deckman, BP Lechêne, ...
Science Advances 3 (6), e1602051, 2017
1892017
Characterizing the Li-Solid-Electrolyte Interface Dynamics as a Function of Stack Pressure and Current Density
MJ Wang, R Choudhury, J Sakamoto
Joule 3 (9), 2165-2178, 2019
922019
Demonstration of high current densities and extended cycling in the garnet Li7La3Zr2O12 solid electrolyte
NJ Taylor, S Stangeland-Molo, CG Haslam, A Sharafi, T Thompson, ...
Journal of Power Sources 396, 314-318, 2018
652018
Correlating the interface resistance and surface adhesion of the Li metal-solid electrolyte interface
M Wang, J Sakamoto
Journal of Power Sources 377, 7-11, 2018
562018
Temperature dependent flux balance of the Li/Li7La3Zr2O12 interface
M Wang, JB Wolfenstine, J Sakamoto
Electrochimica Acta 296, 842-847, 2019
542019
Fabrication of a High‐Performance Flexible Silver–Zinc Wire Battery
AM Zamarayeva, AM Gaikwad, I Deckman, M Wang, B Khau, DA Steingart, ...
Advanced Electronic Materials 2 (5), 1500296, 2016
522016
Sodium Plating from Na‐β ″‐Alumina Ceramics at Room Temperature, Paving the Way for Fast‐Charging All‐Solid‐State Batteries
MC Bay, M Wang, R Grissa, MVF Heinz, J Sakamoto, C Battaglia
Advanced Energy Materials 10 (3), 1902899, 2020
372020
Anode characterization in zinc-manganese dioxide AA alkaline batteries using electrochemical-acoustic time-of-flight analysis
S Bhadra, AG Hsieh, MJ Wang, BJ Hertzberg, DA Steingart
Journal of The Electrochemical Society 163 (6), A1050, 2016
182016
Dramatic reduction in the densification temperature of garnet-type solid electrolytes
M Wang, J Sakamoto
Ionics 24 (7), 1861-1868, 2018
102018
Enabling “lithium-free” manufacturing of pure lithium metal solid-state batteries through in situ plating
MJ Wang, E Carmona, A Gupta, P Albertus, J Sakamoto
Nature Communications 11 (1), 1-9, 2020
72020
Mixed Electronic and Ionic Conduction Properties of Lithium Lanthanum Titanate
MJ Wang, JB Wolfenstine, J Sakamoto
Advanced Functional Materials 30 (10), 1909140, 2020
72020
Hexagonal-WO3 nanorods encapsulated in nitrogen and sulfur co-doped reduced graphene oxide as a high-performance anode material for lithium ion batteries
Y Huang, R Lu, M Wang, J Sakamoto, PFP Poudeu
Journal of Solid State Chemistry 282, 121068, 2020
52020
Analysis of elastic, plastic, and creep properties of sodium metal and implications for solid-state batteries
MJ Wang, JY Chang, JB Wolfenstine, J Sakamoto
Materialia 12, 100792, 2020
22020
SURFACE TREATMENT OF A SOLID ELECTROLYTE TO LOWER THE INTERFACIAL RESISTANCE BETWEEN THE SOLID ELECTROLYTE AND AN ELECTRODE
M Bay, C Battaglia, M Wang, J Sakamoto
US Patent App. 16/560,229, 2021
2021
Fast Li-Ion Conduction in Spinel-Structured Solids
JL Allen, BA Crear, R Choudhury, MJ Wang, DT Tran, L Ma, PM Piccoli, ...
Molecules 26 (9), 2625, 2021
2021
Publisher Correction: Enabling “lithium-free” manufacturing of pure lithium metal solid-state batteries through in situ plating
MJ Wang, E Carmona, A Gupta, P Albertus, J Sakamoto
Nature Communications 11 (1), 1-1, 2020
2020
The Effects of Electric Field Distribution on the Interface Stability in Solid Electrolytes
R Choudhury, M Wang, J Sakamoto
Journal of The Electrochemical Society 167 (14), 140501, 2020
2020
(Invited) Stable Li Electrodeposition Gradient Induced By Changes in Microstructure, Mechanical and Transport Properties of Llzo Solid Electrolyte
R Garcia-Mendez, M Wang, C Li, MJ Namkoong, R Xu, J Cabana, ...
PRiME 2020 (ECS, ECSJ, & KECS Joint Meeting), 2020
2020
Investigating the Mechanical Properties of Na Metal for Solid-State Batteries
JY Chang, M Wang, J Sakamoto
ECS Meeting Abstracts, 2840, 2020
2020
Electrochemical Formation of Li Metal Anodes to Enable Li-Free Manufacturing of Solid-State Batteries
M Wang, J Sakamoto
ECS Meeting Abstracts, 293, 2020
2020
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