My Google scholar and My ORCID
2020-02-27: Become a reviewer for Physical Chemistry Chemical Physics.
2022
1. J.Xu, Q. Liu, Y. F. Xua, S. H. Guo, C. Li, N. B. Zhang*, Y. Cai, X. Y. Liu, L. Lu*, S. N. Luo. Taylor impact of high-entropy alloy Al0. 1CoCrFeNi: dynamic severe plastic deformation and bulk gradient structure. Journal of Alloys and Compounds, 2022: 168261.
2021
1. S. Zhang, Q. Zhang, X. Y. Liu*, S. Luo. Tunable Poisson’s ratio and tension-compression asymmetry of graphene-copper nanolayered composites. Journal of Physics D: Applied Physics, 2021, 54(16): 165303.
2. S. Zhang, Y.B. Zhu, F.C. Wang, X.Y. Liu*, H.A. Wu, S.N. Luo. Theoretical analysis of high strength and anti-buckling of three-dimensional carbon honeycombs under shear loading. Composites Part B: Engineering, 2021, 219: 108967.
2020
1. Y. L. Ma, S. Zhang, Y. F. Xu, X. Y. Liu*, S. N. Luo. Effects of temperature and grain size on deformation of polycrystalline copper-graphene nanolayered composites. Physical Chemistry Chemical Physics, 2020, 22, 4741-4748.
2. J. Guo, Y. Xu, Z. Jiang, X. Y. Liu, Y. Cai*. A Simplified Model for Buckling and Post-Buckling Analysis of Cu Nanobeam Under Compression. Computer Modeling in Engineering & Sciences, 2020, 125(2): 611-623.
2019
1. S. J. Ye, Y. Cai*, X. Y. Liu, et al. Crack propagation in graphene monolayer under tear loading. Physical Chemistry Chemical Physics, 2019, 21(5): p. 2659-2664.
2. Y. X. Zhao, Y. F. Xu, X. Y. Liu, et al. Grain size effects on dynamic fracture instability in polycrystalline graphene under tear loading. Journal of Materials Research, 2019: 1-9.
3. X. Y. Liu. Nanomechanics of Graphene and Design of Graphene Composite. Springer Theses, 2019: Online ISBN 978-981-13-8703-6.
4. Y. X. Zhao, X. Y. Liu*, J. Zhu* and S. N. Luo. Unusually high flexibility of graphene-Cu nanolayered composites under bending. Physical Chemistry Chemical Physics, 2019, 21(31): 17393-17399.
2018
1. X. Y. Liu, J. Cai and S. N. Luo*, Interfacial anti-fatigue effect in graphene–copper nanolayered composites under cyclic shear loading, Physical Chemistry Chemical Physics, 2018. 20:p. 7875-7884.
2. C. Lv, J. Yang, X. Zhang, Y. Cai, X. Y. Liu*, G. Wang* and S. N. Luo, Interfacial effect on deformation and failure of Al/Cu nanolaminates under shear loading, Journal of Physics D: Applied Physics, 2018. 51: p. 335301.
3. S. Zhang, Y. F. Xu, X. Y. Liu*, and S. N. Luo*, Competing Roles of Interfaces and Matrix Grain Size in the Deformation and Failure of Polycrystalline Cu–Graphene Nanolayered Composites under Shear Loading, Physical Chemistry Chemical Physics, 2018. 20: p. 23694-23701.
2017
1. F. C. Wu, P. Wang, X. Y. Liu and H. A. Wu*, Radiation damage in gallium-stabilized δ-plutonium with helium bubbles. Journal of Nuclear Materials, 2017. 484: p. 7-15.
2. Y. C. Wang, Y. B. Zhu*, F. C. Wang, X. Y. Liu and H.A. Wu*, Super-elasticity and deformation mechanism of three-dimensional pillared graphene network structures. Carbon, 2017. 118: p. 588-596.
3. Y. Hou, Y. B. Zhu, X. Y. Liu, Z. H. Dai, L. Q. Liu, H. A. Wu* and Z. Zhang*, Elastic–plastic properties of graphene engineered by oxygen functional groups. Journal of Physics D: Applied Physics, 2017. 50(38): p. 385305.
2016
1. H. A. Wu and X. Y. Liu, Tuning electromechanics of dynamic ripple pattern in graphene monolayer. Carbon, 2016. 98: p. 510-518.
2. S. J. Zhang, S. S. Lin, X. Q. Li, X. Y. Liu, et al. Opening the band gap of graphene through silicon doping for the improved performance of graphene/GaAs heterojunction solar cells. Nanoscale, 2016, 8(1): 226-232.
3. X. Y. Liu, F. C. Wang, W. Q. Wang and H. A. Wu. Interfacial strengthening and self-healing effect in graphene-copper nanolayered composites under shear deformation. Carbon, 2016. 107: p. 680-688.
4. J. Xia, X. Y. Liu, W. Zhou, F. C. Wang and H. A. Wu*, Transformation between divacancy defects induced by an energy pulse in graphene. Nanotechnology, 2016. 27(27): p. 274004.
5. X. Y. Liu, F. C. Wang, H. A. Wu. Research progress in nanomechanics of graphene and its composites. Chinese Journal of Solid Mechanics, 2016, 37(5): 398-420. (Invited review)
2015
1. X. Y. Liu, F. C. Wang and H. A. Wu, Anisotropic growth of buckling-driven wrinkles in graphene monolayer. Nanotechnology, 2015. 26(6): p. 065701. (Cover page).
2. Q. L. Wei, S. S. Tan, X. Y. Liu, et al. Novel polygonal vanadium oxide nanoscrolls as stable cathode for lithium storage. Advanced Functional Materials, 2015. 25(12): p. 1773-1779.
3. S. S. Lin, S. J. Zhang, X. Q. Li, W. L. Xu, X. D. Pi, X. Y. Liu, et al. Quasi-Two-Dimensional SiC and SiC2: Interaction of Silicon and Carbon at Atomic Thin Lattice Plane. Journal of Physical Chemistry C, 2015. 119(34): p. 19772-19779.
4. X. Y. Liu, F. C. Wang and H. A. Wu, Anomalous twisting strength of tilt grain boundaries in armchair graphene nanoribbons. Physical Chemistry Chemical Physics, 2015. 17(47): p. 31911-31916.
2014
X. Y. Liu, F. C. Wang, H. A. Wu and W. Q. Wang, Strengthening metal nanolaminates under shock compression through dual effect of strong and weak graphene interface. Applied Physics Letters, 2014. 104(23): p. 231901.
2013
1. X. Y. Liu, F. C. Wang and H. A. Wu, Anisotropic propagation and upper frequency limitation of terahertz waves in graphene. Applied Physics Letters, 2013. 103(7): p. 071904.
2. X. Y. Liu, F. C. Wang, H. S. Park and H. A. Wu, Defecting controllability of bombarding graphene with different energetic atoms via reactive force field model. Journal of Applied Physics, 2013. 114(5): p. 054313.
3. X. Y. Liu, X. Z. Xu. Mesoscopic numerical computation model of air-diffusion electrode of metal/air batteries. Applied Mathematics and Mechanics (English Edition), 2013. 34(5): p.571-576.