Follow
Yuxun Ren
Yuxun Ren
Postdoctral researcher at University of Maryland
Verified email at umd.edu
Title
Cited by
Cited by
Year
A high-energy and long-cycling lithium–sulfur pouch cell via a macroporous catalytic cathode with double-end binding sites
KATZ Chen Zhao, Gui-Liang Xu, Zhou Yu, Leicheng Zhang, Inhui Hwang, Yu-Xue ...
nature nanotechnology, 2020
438*2020
High-performance zinc bromine flow battery via improved design of electrolyte and electrode
MC Wu, TS Zhao, HR Jiang, YK Zeng, YX Ren
Journal of Power Sources 355, 62-68, 2017
1572017
Borophene and defective borophene as potential anchoring materials for lithium–sulfur batteries: a first-principles study
HR Jiang, W Shyy, M Liu, YX Ren, TS Zhao
Journal of Materials Chemistry A 6 (5), 2107-2114, 2018
1432018
Rational design of spontaneous reactions for protecting porous lithium electrodes in lithium–sulfur batteries
YX Ren, L Zeng, HR Jiang, WQ Ruan, Q Chen, TS Zhao
Nature Communications 10, 3429, 2019
1142019
Modeling of lithium-sulfur batteries incorporating the effect of Li2S precipitation
YX Ren, TS Zhao, M Liu, P Tan, YK Zeng
Journal of Power Sources 336, 115-125, 2016
1132016
Towards a uniform distribution of zinc in the negative electrode for zinc bromine flow batteries
HR Jiang, MC Wu, YX Ren, W Shyy, TS Zhao
Applied Energy 213, 366-374, 2018
982018
An efficient Li2S-based lithium-ion sulfur battery realized by a bifunctional electrolyte additive
M Liu, YX Ren, HR Jiang, C Luo, FY Kang, TS Zhao
Nano Energy 40, 240-247, 2017
882017
In-situ fabrication of a freestanding acrylate-based hierarchical electrolyte for lithium-sulfur batteries
M Liu, HR Jiang, YX Ren, D Zhou, FY Kang, TS Zhao
Electrochimica Acta 213, 871-878, 2016
802016
Ab initio prediction and characterization of phosphorene-like SiS and SiSe as anode materials for sodium-ion batteries
H Jiang, T Zhao, Y Ren, R Zhang, M Wu
Science Bulletin 62 (8), 572-578, 2017
702017
A hydrogen-ferric ion rebalance cell operating at low hydrogen concentrations for capacity restoration of iron-chromium redox flow batteries
YK Zeng, TS Zhao, XL Zhou, J Zou, YX Ren
Journal of Power Sources 352, 77-82, 2017
672017
A room-temperature activated graphite felt as the cost-effective, highly active and stable electrode for vanadium redox flow batteries
HR Jiang, W Shyy, YX Ren, RH Zhang, TS Zhao
Applied Energy 233, 544-553, 2019
642019
A highly-safe lithium-ion sulfur polymer battery with SnO2 anode and acrylate-based gel polymer electrolyte
M Liu, D Zhou, HR Jiang, YX Ren, FY Kang, TS Zhao
Nano Energy 28, 97-105, 2016
612016
A self-cleaning Li-S battery enabled by a bifunctional redox mediator
YX Ren, TS Zhao, M Liu, YK Zeng, HR Jiang
Journal of Power Sources 361, 203-210, 2017
582017
Remedies of capacity fading in room-temperature sodium-sulfur batteries
YX Ren, HR Jiang, TS Zhao, L Zeng, C Xiong
Journal of Power Sources 396, 304-313, 2018
532018
An aqueous alkaline battery consisting of inexpensive all-iron redox chemistries for large-scale energy storage
L Wei, MC Wu, TS Zhao, YK Zeng, YX Ren
Applied Energy 215, 98-105, 2018
482018
A modified aggregation based model for the accurate prediction of particle distribution and viscosity in magnetic nanofluids
D Song, D Jing, J Geng, Y Ren
Powder Technology 283, 561-569, 2015
452015
A Self-Healable Sulfide/Polymer Composite Electrolyte for Long-Life, Low-Lithium-Excess Lithium-Metal Batteries
Y Ren, Z Cui, A Bhargav, J He, A Manthiram
Advanced Functional Materials 2106680, 2021
392021
A novel iron-lead redox flow battery for large-scale energy storage
YK Zeng, TS Zhao, XL Zhou, L Wei, YX Ren
Journal of Power Sources 346, 97-102, 2017
392017
Modeling of anisotropic flow and thermodynamic properties of magnetic nanofluids induced by external magnetic field with varied imposing directions
D Song, D Jing, B Luo, J Geng, Y Ren
Journal of Applied Physics 118 (4), 2015
392015
Sodium–Sulfur Batteries Enabled by a Protected Inorganic/Organic Hybrid Solid Electrolyte
Y Ren, N Hortance, JR McBride, KB Hatzell
ACS Energy Letter 6, 345-353, 2020
372020
The system can't perform the operation now. Try again later.
Articles 1–20