(通讯标注为*,共同一作标注为#)
[1] Zhuo F#,Zhou X#, Dietrich F, Soleimany M, Breckner P, Groszewicz P, Xu BX, Buntkowsky G, Rödel J. Dislocation Density-Mediated Functionality in Single-CrystalBaTiO3.Advanced Science, 2024, 2403550.
[2] Yang Y, Bharech S, Finger N,Zhou X*, Schroeder J, Xu BX*. Elasto-plastic residual stress analysis of selective laser sintered porous materials based on 3D-multilayer thermo-structural phase-field simulations[J].npj Computational Materials, 2024, 10(1): 117.
[3] Dietrich F, Ni F, Fulanović L,Zhou X*, Isaia D, Groszewicz PB, Zhang C, Xu BX, Rödel J, Buntkowsky G, Zhuo F*. Effect of temperature on dislocation-tuned dielectricity and piezoelectricity in single-crystal BaTiO3[J].Applied Physics Letters, 2024, 124(11).
[4] Zhuo F#,ZhouX#, Gao S, Dietrich F, Groszewicz PB, Fulanovi L, Breckner P, Xu BX, Kleebe H, Damjanovic D, Rödel J. Intrinsic-Strain Engineering by Dislocation Imprint in Bulk Ferroelectrics[J].Physical Review Letters, 2023, 131(1): 016801.
[5] Yang Y, Oyedeji TD,ZhouX, Able K., Xu BX. Tailoring magnetic hysteresis of additive manufactured Fe-Ni permalloy via multiphysics-multiscale simulations of process-property relationships[J].npj Computational Materials. 2023, 9(1): 1-19.
[6] Zhuo F,Zhou X, Gao S, Höfling M, Dietrich F, Groszewicz PB, Fulanović L, Breckner P, Wohninsland A, Xu BX, Kleebe HJ, Tan X, Koruza J, Damjanovic D, Rödel J. Anisotropic dislocation-domain wall interactions in ferroelectrics.Nature Communications. 2022, 13(1):1–11.
[7] Zhou X, Reimuth C, Xu BX. Phase-field simulation of misfit dislocations in two-phase electrode particles: Driving force calculation and stability analysis.International Journal of Solids and Structures. 2022, 249:111688.
[8] Yang Y, Fathidoost M, Oyedeji TD, Bondi P,Zhou X, Egger H, Xu BX. A diffuse-interface model of anisotropic interface thermal conductivity and its application in thermal homogenization of composites.Scripta Materialia. 2022, 212:114537.
[9] Okafor C, Ding K,Zhou X, Durst K, Rödel J, Fang X. Mechanical tailoring of dislocation densities in SrTiO3 at room temperature.Journal of the American Ceramic Society. 2022, 105(4):2399–402.
[10] Zhou X, Liu Z, Xu BX. Influence of dislocations on domain walls in perovskite ferroelectrics: Phase-field simulation and driving force calculation.International Journal of Solids and Structures. 2022, 238:111391.
[11] Höfling M,Zhou X, Riemer LM, Bruder E, Liu B, Zhou L, Groszewicz PB, Zhuo F, Xu BX, Durst K, Tan X, Damjanovic D, Koruza J, Rödel J. Control of polarization in bulk ferroelectrics by mechanical dislocation imprint.Science. 2021, 372(6545):961–4.
[12] Zhou X, Yang Y, Bharech S, Lin B, Schröder J, Xu BX. 3D-multilayer simulation of microstructure and mechanical properties of porous materials by selective sintering.GAMM-Mitteilungen. 2021, 44(4):e202100017.
[13] Reimuth C, Lin B, Yang Y, Stein P,Zhou X*, Xu BX. Chemo-mechanical study of dislocation mediated ion diffusion in lithium-ion battery materials.Journal of Applied Physics. 2021, 130(3):035103.
[14] Zhou X, Reimuth C, Stein P, Xu BX. Driving forces on dislocations: finite element analysis in the context of the non-singular dislocation theory.Archive of Applied Mechanics. 2021, 91(11):4499–516.
[15] Liu Z,Zhou X, Feng B, Xu BX. Engineered periodic quadrupole superstructure in ferroelectric thin films via flexoelectricity.Acta Materialia. 2021, 216:117126.
[16] Zhou X, Huang K, Li Z. Geometrically nonlinear beam analysis of composite wind turbine blades based on quadrature element method.International Journal of Non-Linear Mechanics. 2018, 104: 87-99.
[17] Zhou X, Huang K, Li Z. Effects of bend-twist coupling on flutter limits of composite wind turbine blades.Composite Structures. 2018, 192: 317-326.