Jun Ming
Jun Ming
Chinese Acdemic of Sciences, Hanyang University, The University of Tokyo, King Abdullah University
Verified email at - Homepage
Cited by
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Zinc-ion batteries: materials, mechanisms, and applications
J Ming, J Guo, C Xia, W Wang, HN Alshareef
Materials Science and Engineering: R: Reports 135, 58-84, 2019
Graphitic nanocarbon with engineered defects for high‐performance potassium‐ion battery anodes
W Zhang, J Ming, W Zhao, X Dong, MN Hedhili, PMFJ Costa, ...
Advanced Functional Materials 29 (35), 1903641, 2019
Metal–organic framework-based separators for enhancing Li–S battery stability: mechanism of mitigating polysulfide diffusion
M Li, Y Wan, JK Huang, AH Assen, CE Hsiung, H Jiang, Y Han, ...
ACS Energy Letters 2 (10), 2362-2367, 2017
Recognizing the mechanism of sulfurized polyacrylonitrile cathode materials for Li–S batteries and beyond in Al–S batteries
W Wang, Z Cao, GA Elia, Y Wu, W Wahyudi, E Abou-Hamad, AH Emwas, ...
ACS Energy Letters 3 (12), 2899-2907, 2018
Facile synthesis of a Co 3 O 4–carbon nanotube composite and its superior performance as an anode material for Li-ion batteries
L Zhuo, Y Wu, J Ming, L Wang, Y Yu, X Zhang, F Zhao
Journal of Materials Chemistry A 1 (4), 1141-1147, 2013
New insights on graphite anode stability in rechargeable batteries: Li ion coordination structures prevail over solid electrolyte interphases
J Ming, Z Cao, W Wahyudi, M Li, P Kumar, Y Wu, JY Hwang, MN Hedhili, ...
ACS Energy Letters 3 (2), 335-340, 2018
Porous MXenes enable high performance potassium ion capacitors
F Ming, H Liang, W Zhang, J Ming, Y Lei, AH Emwas, HN Alshareef
Nano Energy 62, 853-860, 2019
Deactivation of Ni/TiO2 catalyst in the hydrogenation of nitrobenzene in water and improvement in its stability by coating a layer of hydrophobic carbon
W Lin, H Cheng, J Ming, Y Yu, F Zhao
Journal of catalysis 291, 149-154, 2012
New insight on the role of electrolyte additives in rechargeable lithium ion batteries
J Ming, Z Cao, Y Wu, W Wahyudi, W Wang, X Guo, L Cavallo, JY Hwang, ...
ACS energy letters 4 (11), 2613-2622, 2019
Artificial solid electrolyte interphase for suppressing surface reactions and cathode dissolution in aqueous zinc ion batteries
J Guo, J Ming, Y Lei, W Zhang, C Xia, Y Cui, HN Alshareef
ACS Energy Letters 4 (12), 2776-2781, 2019
Electrolyte engineering enables high stability and capacity alloying anodes for sodium and potassium ion batteries
L Zhou, Z Cao, W Wahyudi, J Zhang, JY Hwang, Y Cheng, L Wang, ...
ACS Energy Letters 5 (3), 766-776, 2020
Selective conversion of concentrated microcrystalline cellulose to isosorbide over Ru/C catalyst
G Liang, C Wu, L He, J Ming, H Cheng, L Zhuo, F Zhao
Green chemistry 13 (4), 839-842, 2011
An exploration of new energy storage system: high energy density, high safety, and fast charging lithium ion battery
Y Wu, W Wang, J Ming, M Li, L Xie, X He, J Wang, S Liang, Y Wu
Advanced Functional Materials 29 (1), 1805978, 2019
Recent advances in nanostructured carbon for sodium-ion batteries
H Zhang, Y Huang, H Ming, G Cao, W Zhang, J Ming, R Chen
Journal of Materials Chemistry A 8 (4), 1604-1630, 2020
Phenanthroline covalent organic framework electrodes for high-performance zinc-ion supercapattery
W Wang, VS Kale, Z Cao, S Kandambeth, W Zhang, J Ming, PT Parvatkar, ...
ACS Energy Letters 5 (7), 2256-2264, 2020
Symmetrical synergy of hybrid Co9S8-MoSx electrocatalysts for hydrogen evolution reaction
X Zhou, X Yang, MN Hedhili, H Li, S Min, J Ming, KW Huang, W Zhang, ...
Nano Energy 32, 470-478, 2017
Emerging Era of Electrolyte Solvation Structure and Interfacial Model in Batteries
H Cheng, Q Sun, L Li, Y Zou, Y Wang, T Cai, F Zhao, G Liu, Z Ma, ...
ACS Energy Letters 7, 490-513, 2022
Toward the sustainable lithium metal batteries with a new electrolyte solvation chemistry
SH Lee, JY Hwang, J Ming, Z Cao, HA Nguyen, HG Jung, J Kim, YK Sun
Advanced Energy Materials 10 (20), 2000567, 2020
Electrolyte‐mediated stabilization of high‐capacity micro‐sized antimony anodes for potassium‐ion batteries
L Zhou, Z Cao, J Zhang, H Cheng, G Liu, GT Park, L Cavallo, L Wang, ...
Advanced Materials 33 (8), 2005993, 2021
Scalable Approach To Construct Free-Standing and Flexible Carbon Networks for Lithium–Sulfur Battery
M. Li, W. Wahyudi, P. Kumar, F. Wu, X. Yang, H. Li, L. J. Li, J. Ming
ACS Applied Materials & Interfaces, 2017
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