Zhijie Xu
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Real-time mass spectrometric characterization of the solid–electrolyte interphase of a lithium-ion battery
Y Zhou, M Su, X Yu, Y Zhang, JG Wang, X Ren, R Cao, W Xu, DR Baer, ...
Nature nanotechnology 15 (3), 224-230, 2020
High‐performance silicon anodes enabled by nonflammable localized high‐concentration electrolytes
H Jia, L Zou, P Gao, X Cao, W Zhao, Y He, MH Engelhard, SD Burton, ...
Advanced Energy Materials 9 (31), 1900784, 2019
Modeling of electric water heaters for demand response: A baseline PDE model
Z Xu, R Diao, S Lu, J Lian, Y Zhang
IEEE Transactions on Smart Grid 5 (5), 2203-2210, 2014
Phase-field modeling of solute precipitation and dissolution
Z Xu, P Meakin
The Journal of chemical physics 129 (1), 014705, 2008
Atomic origins of water-vapour-promoted alloy oxidation
L Luo, M Su, P Yan, L Zou, DK Schreiber, DR Baer, Z Zhu, G Zhou, ...
Nature materials 17 (6), 514-518, 2018
Precise measurements of the properties of the B1 (5721) 0,+ and B 2*(5747) 0,+ states and observation of B+, 0π−,+ mass structures
R Aaij, B Adeva, M Adinolfi, A Affolder, Z Ajaltouni, S Akar, J Albrecht, ...
Journal of High Energy Physics 2015 (4), 1-27, 2015
Metal oxidation kinetics and the transition from thin to thick films
Z Xu, KM Rosso, S Bruemmer
Physical Chemistry Chemical Physics 14 (42), 14534-14539, 2012
Formation mechanism of gas bubble superlattice in UMo metal fuels: Phase-field modeling investigation
S Hu, DE Burkes, CA Lavender, DJ Senor, W Setyawan, Z Xu
Journal of Nuclear Materials 479, 202-215, 2016
Discerning the location and nature of coke deposition from surface to bulk of spent zeolite catalysts
A Devaraj, M Vijayakumar, J Bao, MF Guo, MA Derewinski, Z Xu, MJ Gray, ...
Scientific reports 6 (1), 1-11, 2016
Phase-field modeling of two-dimensional solute precipitation/dissolution: Solid fingers and diffusion-limited precipitation
Z Xu, P Meakin
The Journal of chemical physics 134 (4), 044137, 2011
Diffuse-interface model for smoothed particle hydrodynamics
Z Xu, P Meakin, AM Tartakovsky
Physical Review E 79 (3), 036702, 2009
Strain rate sensitivity of thermally activated dislocation motion across fields of obstacles of different kind
RC Picu, R Li, Z Xu
Materials Science and Engineering: A 502 (1-2), 164-171, 2009
Phase field and level set methods for modeling solute precipitation and/or dissolution
Z Xu, H Huang, X Li, P Meakin
Computer Physics Communications 183 (1), 15-19, 2012
Thermally activated motion of dislocations in fields of obstacles: the effect of obstacle distribution
Z Xu, RC Picu
Physical review B 76 (9), 094112, 2007
Dislocation–solute cluster interaction in Al–Mg binary alloys
Z Xu, RC Picu
Modelling and Simulation in Materials Science and Engineering 14 (2), 195, 2006
A consistent spatially adaptive smoothed particle hydrodynamics method for fluid–structure interactions
W Hu, G Guo, X Hu, D Negrut, Z Xu, W Pan
Computer Methods in Applied Mechanics and Engineering 347, 402-424, 2019
Modeling the homogenization kinetics of as-cast U-10wt% Mo alloys
Z Xu, V Joshi, S Hu, D Paxton, C Lavender, D Burkes
Journal of Nuclear Materials 471, 154-164, 2016
A phase-field approach to no-slip boundary conditions in dissipative particle dynamics and other particle models for fluid flow in geometrically complex confined systems
Z Xu, P Meakin
The Journal of chemical physics 130 (23), 234103, 2009
Primary care practitioners’ barriers to and experience of COVID-19 epidemic control in China: a qualitative study
Z Xu, Y Ye, Y Wang, Y Qian, J Pan, Y Lu, L Fang
Journal of general internal medicine 35 (11), 3278-3284, 2020
Investigation of ion–solvent interactions in nonaqueous electrolytes using in situ liquid SIMS
Y Zhang, M Su, X Yu, Y Zhou, J Wang, R Cao, W Xu, C Wang, DR Baer, ...
Analytical chemistry 90 (5), 3341-3348, 2018
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