国家自然科学基金-青年科学基金项目，基于热力学的硅电极自限制锂化力-化耦合机理研究

国家自然科学基金-面上项目，硅负极锂离子电池力-化学耦合劣化与容量衰退的定量关联机制研究

上海市教育委员会-“晨光计划”项目，基于粘塑性理论的硅电极高倍率充放电方法研究

上海市自然科学基金项目，外加机械载荷调控增强硅负极锂离子电池循环性能及其机理研究

中国船舶集团第七〇四研究所-XXXX性能计算 

[1]    Zhang K, Zhou J, Tian T, Kai Y,Li Y*, Zheng B*, Yang F*. Cycling-induced damage of silicon-based lithium-ionbatteries: Modeling and experimental validation. International Journal of Fatigue, 2023, 172: 107660.

[2]    Zhang K, Hüger E*, Li Y, SchmidtH, Yang F*. Review and stress analysis on the lithiation onset of amorphoussilicon films. Batteries, 2023, 9.2:105.

[3]    Zhang K, Zhou J, Yang F, ZhangY, Pan Y, Zheng B, Li Y*, Yang F*. A stress-control charging method withmulti-stage currents for silicon-based lithium-ion batteries: Theoreticalanalysis and experimental validation. Journalof Energy Storage, 2022, 56: 105985.

[4]    Zhang K, Li Y*, Zheng B, YangF*. A free volume-based analytical model for plastic flow in thin-walledsilicon structures of lithium-ion batteries. Acta Mechanica, 2022, 233(2): 561-578.

[5]    Zhang K, Li Y, Wang F, Zheng B*, Yang F*, Lu D. An analytical model forlithiation-induced concurrent plastic flow and phase transformation in acylindrical silicon electrode, InternationalJournal of Solids and Structures, 2020, 202: 87-98.

[6]    Zhang K, Zheng B*, Yang F*, LiY. Analysis of a cylindrical silicon electrode with a pre-existing crack:Path-independent Ĵ-integral, International Journal of Mechanical Sciences,2020, 177: 105602.

[7]    Zhang K, Zhang Y, Zhou J, Li Y,Zheng B, Yang F, Kai Y. A stress-based charging protocol for silicon anode inlithium-ion battery: Theoretical and experimental studies. Journal of Energy Storage, 2020, 32: 101765.

[8]    Zhang K, Chen J, Li Y, Liu D*,Zheng B*, Kai Y. Rate-dependent lithiation-induced failure modes of acylindrical core-shell electrode. Resultsin Physics, 2020, 16: 103018.

[9]    Zhang K, Zheng B*. Effect ofIrreversible Electrochemical Reaction on Diffusion and Diffusion-InducedStresses in Spherical Composition–Gradient Electrodes, Zeitschrift fur Naturforschung A, 2019, 75(1): 55-63.

[10] Zhang K, Li Y, Wang F, ZhengB*, Yang F*. Stress effect on self-limiting lithiation in silicon-nanowireelectrode. Applied Physics Express,2019, 12(4): 045004.

[11] Zhang K, Li Y, Wang F, Zheng B,Yang F. A phase-field study of the effect of local deformation velocity onlithiation-induced stress in wire-like structures. Journal of Physics D Applied Physics, 2019, 52(14): 145501.

[12] Zhang K*, Li Y, Wu J, Zheng B,Yang F*, Lithiation-induced buckling of wire-based electrodes in lithium-ionbatteries: A phase-field model coupled with large deformation. International Journal of Solids andStructures, 2018, 144: 289-300.

[13] Zhang K, Li Y, Zheng B, et al.Large deformation analysis of diffusion-induced buckling of nanowires inlithium-ion batteries. InternationalJournal of Solids and Structures, 2017, 108: 230-243.

[14] Zhang K, Li Y, Zheng B.Influence of Maximum Lithium Ion Concentration in Composition-GradientElectrodes on Diffusion-Induced Stresses and Electrochemical Performances. Journal of The Electrochemical Society, 2015,162(9): A1873-A1878.

[15] Zhang K, Li Y, Zheng B. Effectsof concentration-dependent elastic modulus on Li-ions diffusion anddiffusion-induced stresses in spherical composition-gradient electrodes. Journal of Applied Physics, 2015,118(10): 105102.

[16] Zhang K, Li Y, Zheng B.Modeling of diffusion-induced stresses of spherical composition-gradientelectrodes in lithium-ion batteries. TheEuropean Physical Journal Applied Physics, 2015, 70(1): 10404.

[17] HuangH, Li Y, Xue Y, Zhang K*, YangF*. A deep learning approach for solving diffusion-induced stress inlarge-deformed thin film electrodes. Journalof Energy Storage, 2023, 63: 107037.

[18] LiY, Zhang K*, Pan Y, Yang F*.Anisotropic behavior in the lithiation of a silicon nanopillar. Journal of Energy Storage, 2023, 57:106271.

[19] LiY, Zhang K*,Yang F*. Generalized Theory for DISes in a Large Deformed Solid. InternationalJournal of Applied Mechanics, 2022, 14(4): 2250024.

[20] LiY, Zhang K*, Yang F*. Effects ofstress-assisted migration on potentiostatic intermittent titration technique(PITT) in spherical particles. ElectrochimicaActa, 2022, 425: 140732.

[21] WangF, Zhang K*, Zheng B*. The non-local effectsinduced by rapid transient mass diffusion in a spherical silicon electrode oflithium-ion batteries. Acta MechanicaSolida Sinica, 2022, 35(1): 174-184.

[22] LiY, Zhang K*, Pan Y, Yang F*.Anisotropic behavior in the lithiation of a silicon nanopillar. Journal ofEnergy Storage, 2023, 57: 106271.

[23] ZhangY, Zhan S, Zhang K*, Zheng B*, Lyu L. Bucklingbehavior of a wire-like electrode with a concentration-dependent elasticmodulus based on a deformed configuration. EuropeanJournal of Mechanics-A/Solids, 2020, 85: 104111.

[24] WangF, Zhang K*, Zheng B*. A developed expression of chemical potential for fastdeformation in nanoparticle electrodes of lithium-ion batteries, Nanoscale Research Letters, 2019, 14(1): 262.

[25] LyuL, Zheng B*, Zhang K*, Wang F,Zhan S. Effect of stress-dependent activation enthalpy on electrochemicalreaction and diffusion-reaction-induced stress in spherical electrodes. Results in Physics, 2019, 14: 102407.

[26] LiuJ, Zheng B*, Zhang K*, YangB, Yu X. Ballistic performance and energy absorption characteristics of thinnickel- based alloy plates at elevated temperatures. International Journal of Impact Engineering, 2019, 126: 160-171.

[27] KaiY, Zheng B*, Zhang K*, Xu W,Yang N. Exact and asymptotic solutions to magnetohydrodynamic flow over anonlinear stretching sheet with a power-law velocity by the homotopyrenormalization method, Physics of Fluids,2019, 31(6): 063606.

[28] PengY, Y Li, Zheng B*, Zhang K*,Xu Y. Influence of local velocity on Diffusion-induced stress and axialreaction force in a hollow cylindrical electrode of lithium-ion batteries. Acta Physica Sinica, 2018, 67(7): 070203.

[29] XuY, Zheng B*, Zhang K*, PengY, Wang F. Effect of combining local velocity and chemical reaction on theinteraction between diffusion and stresses in large deformed electrodes. AIP Advances, 2019, 9(10), 105103.