フォロー
Guanchen Li
Guanchen Li
James Watt School of Engineering, University of Glasgow
確認したメール アドレス: glasgow.ac.uk - ホームページ
タイトル
引用先
引用先
Visualizing plating-induced cracking in lithium-anode solid-electrolyte cells
Z Ning, DS Jolly, G Li, R De Meyere, SD Pu, Y Chen, J Kasemchainan, ...
Nature materials 20 (8), 1121-1129, 2021
2512021
2020 roadmap on solid-state batteries
M Pasta, D Armstrong, ZL Brown, J Bu, MR Castell, P Chen, A Cocks, ...
Journal of Physics: Energy 2 (3), 032008, 2020
1072020
Dendrite initiation and propagation in lithium metal solid-state batteries
Z Ning, G Li, DLR Melvin, Y Chen, J Bu, D Spencer-Jolly, J Liu, B Hu, ...
Nature 618 (7964), 287-293, 2023
842023
Dendrite nucleation in lithium-conductive ceramics
G Li, CW Monroe
Physical Chemistry Chemical Physics 21 (36), 20354-20359, 2019
592019
TiO2 as Second Phase in Na3Zr2Si2PO12 to Suppress Dendrite Growth in Sodium Metal Solid‐State Batteries
Z Gao, J Yang, G Li, T Ferber, J Feng, Y Li, H Fu, W Jaegermann, ...
Advanced Energy Materials 12 (9), 2103607, 2022
392022
Steepest-entropy-ascent quantum thermodynamic modeling of the relaxation process of isolated chemically reactive systems using density of states and the concept of …
G Li, MR von Spakovsky
Physical Review E 93 (1), 012137, 2016
372016
Multiscale lithium-battery modeling from materials to cells
G Li, CW Monroe
Annual Review of Chemical and Biomolecular Engineering 11, 277-310, 2020
352020
Generalized thermodynamic relations for a system experiencing heat and mass diffusion in the far-from-equilibrium realm based on steepest entropy ascent
G Li, MR von Spakovsky
Physical Review E 94 (3), 032117, 2016
31*2016
Atomic bonding and electrical potential at metal/oxide interfaces, a first principle study
E Tea, J Huang, G Li, C Hin
The Journal of Chemical Physics 146 (12), 2017
262017
Steepest entropy ascent quantum thermodynamic model of electron and phonon transport
G Li, MR von Spakovsky, C Hin
Physical Review B 97 (2), 024308, 2018
232018
Modeling the nonequilibrium effects in a nonquasi-equilibrium thermodynamic cycle based on steepest entropy ascent and an isothermal-isobaric ensemble
G Li, MR von Spakovsky
Energy 115, 498-512, 2016
222016
Atomistic-level non-equilibrium model for chemically reactive systems based on steepest-entropy-ascent quantum thermodynamics
G Li, O Al-Abbasi, MR Von Spakovsky
Journal of Physics: Conference Series 538 (1), 012013, 2014
222014
Study of nonequilibrium size and concentration effects on the heat and mass diffusion of indistinguishable particles using steepest-entropy-ascent quantum thermodynamics
G Li, MR von Spakovsky
Journal of Heat Transfer 139 (12), 122003, 2017
212017
Hydrogen release at metal-oxide interfaces: A first principle study of hydrogenated Al/SiO2 interfaces
J Huang, E Tea, G Li, C Hin
Applied Surface Science 406, 128-135, 2017
212017
Multiscale transient and steady-state study of the influence of microstructure degradation and chromium oxide poisoning on solid oxide fuel cell cathode performance
G Li, MR von Spakovsky, F Shen, K Lu
Journal of Non-Equilibrium Thermodynamics 43 (1), 21-42, 2018
202018
Current-driven solvent segregation in lithium-ion electrolytes
AA Wang, S Greenbank, G Li, DA Howey, CW Monroe
Cell Reports Physical Science 3 (9), 2022
192022
Steepest-entropy-ascent model of mesoscopic quantum systems far from equilibrium along with generalized thermodynamic definitions of measurement and reservoir
G Li, MR von Spakovsky
Physical Review E 98 (4), 042113, 2018
182018
CH4 Adsorption Probability on GaN(0001) and (000−1) during Metalorganic Vapor Phase Epitaxy and Its Relationship to Carbon Contamination in the Films
A Kusaba, G Li, P Kempisty, MR von Spakovsky, Y Kangawa
Materials 12 (6), 972, 2019
172019
Modeling the non-equilibrium process of the chemical adsorption of ammonia on GaN (0001) reconstructed surfaces based on steepest-entropy-ascent quantum thermodynamics
A Kusaba, G Li, MR Von Spakovsky, Y Kangawa, K Kakimoto
Materials 10 (8), 948, 2017
162017
Study of the transient behavior and microstructure degradation of a SOFC cathode using an oxygen reduction model based on steepest-entropy-ascent quantum thermodynamics
G Li, MR von Spakovsky
ASME International Mechanical Engineering Congress and Exposition 57441 …, 2015
82015
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論文 1–20