Arthur Cresce
Sitert av
Sitert av
Advanced high‐voltage aqueous lithium‐ion battery enabled by “water‐in‐bisalt” electrolyte
L Suo, O Borodin, W Sun, X Fan, C Yang, F Wang, T Gao, Z Ma, ...
Angewandte Chemie 128 (25), 7252-7257, 2016
“Water‐in‐salt” electrolyte makes aqueous sodium‐ion battery safe, green, and long‐lasting
L Suo, O Borodin, Y Wang, X Rong, W Sun, X Fan, S Xu, MA Schroeder, ...
Advanced Energy Materials 7 (21), 1701189, 2017
Differentiating Contributions to “Ion Transfer” Barrier from Interphasial Resistance and Li+ Desolvation at Electrolyte/Graphite Interface
K Xu, A von Cresce, U Lee
Langmuir 26 (13), 11538-11543, 2010
4.0 V aqueous Li-ion batteries
C Yang, J Chen, T Qing, X Fan, W Sun, A von Cresce, MS Ding, ...
Joule 1 (1), 122-132, 2017
Interfacing electrolytes with electrodes in Li ion batteries
K Xu, A von Cresce
Journal of Materials Chemistry 21 (27), 9849-9864, 2011
Dendrite-free lithium deposition with self-aligned nanorod structure
Y Zhang, J Qian, W Xu, SM Russell, X Chen, E Nasybulin, P Bhattacharya, ...
Nano letters 14 (12), 6889-6896, 2014
An artificial interphase enables reversible magnesium chemistry in carbonate electrolytes
SB Son, T Gao, SP Harvey, KX Steirer, A Stokes, A Norman, C Wang, ...
Nature Chemistry 10 (5), 532-539, 2018
Dual-graphite chemistry enabled by a high voltage electrolyte
JA Read, AV Cresce, MH Ervin, K Xu
Energy & Environmental Science 7 (2), 617-620, 2014
Understanding Li+–Solvent Interaction in Nonaqueous Carbonate Electrolytes with 17O NMR
X Bogle, R Vazquez, S Greenbaum, AW Cresce, K Xu
The Journal of Physical Chemistry Letters 4 (10), 1664-1668, 2013
Liquid structure with nano-heterogeneity promotes cationic transport in concentrated electrolytes
O Borodin, L Suo, M Gobet, X Ren, F Wang, A Faraone, J Peng, M Olguin, ...
ACS nano 11 (10), 10462-10471, 2017
Electrolyte additive in support of 5 V Li ion chemistry
A Von Cresce, K Xu
Journal of The Electrochemical Society 158 (3), A337, 2011
In situ and quantitative characterization of solid electrolyte interphases
A Cresce, SM Russell, DR Baker, KJ Gaskell, K Xu
Nano letters 14 (3), 1405-1412, 2014
Deciphering the ethylene carbonate–propylene carbonate mystery in Li-ion batteries
L Xing, X Zheng, M Schroeder, J Alvarado, A von Wald Cresce, K Xu, Q Li, ...
Accounts of chemical research 51 (2), 282-289, 2018
Modeling insight into battery electrolyte electrochemical stability and interfacial structure
O Borodin, X Ren, J Vatamanu, A von Wald Cresce, J Knap, K Xu
Accounts of chemical research 50 (12), 2886-2894, 2017
Li+-solvation/desolvation dictates interphasial processes on graphitic anode in Li ion cells
K Xu, A von Wald Cresce
Journal of Materials Research 27 (18), 2327-2341, 2012
Solvation behavior of carbonate-based electrolytes in sodium ion batteries
AV Cresce, SM Russell, O Borodin, JA Allen, MA Schroeder, M Dai, ...
Physical Chemistry Chemical Physics 19 (1), 574-586, 2017
Correlating Li+ Solvation Sheath Structure with Interphasial Chemistry on Graphite
A von Wald Cresce, O Borodin, K Xu
The Journal of Physical Chemistry C 116 (50), 26111-26117, 2012
Additive engineering for robust interphases to stabilize high-Ni layered structures at ultra-high voltage of 4.8 V
S Tan, Z Shadike, J Li, X Wang, Y Yang, R Lin, A Cresce, J Hu, A Hunt, ...
Nature Energy 7 (6), 484-494, 2022
Preferential solvation of Li+ directs formation of interphase on graphitic anode
A von Cresce, K Xu
Electrochemical and Solid-State Letters 14 (10), A154, 2011
Anion solvation in carbonate-based electrolytes
A von Wald Cresce, M Gobet, O Borodin, J Peng, SM Russell, E Wikner, ...
The Journal of Physical Chemistry C 119 (49), 27255-27264, 2015
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