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1 Y. H. Xue, Y. Yang, H. Sun, X. Y. Li, S. Wu, A.Y. Cao, H. L. Duan* , A Switchable and Compressible Carbon Nanotube Sponge Electrocapillary Imbiber, Advanced Materials, (2015), 27: 7241–7246
2 D. F. Ye, M. Li, L. B. Fu, J. Liu*, Q. H. Gong, Y. Q. Liu and J. Ullrich, Scaling Laws of the TwoElectron SumEnergy Spectrum in StrongField Double Ionization, PRL, (2015), 115, 123001
3 Q. Sheng, X. W. Wang, Y. B. Xie, C. M. Wang and J. M. Xue, A capacitivepulse model for nanoparticle sensing by single conical nanochannels, Nanoscale, (2015), DOI: 10.1039/c5nr07596c
4 C. M. Wang, Q. B. Fu, X. W. Wang*, D. L. Kong, Q. Sheng, Y. G. Wang, Q. Chen and J. M. Xue, Atomic Layer Deposition Modified TrackEtched Conical Nanochannels for Protein Sensing, Anal. Chem. (2015), 87: 8227−8233
5 Q. Z. Xia, D. F. Ye, L. B. Fu, X. Y. Han, and J. Liu, Momentum Distribution of Near ZeroEnergy Photoelectrons in the Strong  Field Tunneling Ionization in the Long Wavelength Limit, Scientific Reports, (2015), 5:11473
6 H. Y. Wang, X. Q. Yan and M. Zepf, Collimated proton acceleration in light sail regime with a tailored pinhole target, Physics of Plasmas, 21: 063113 (2014)
7 S. Zhao, C. Lin, H. Y. Wang, H. Y. Lu, X. T. He, J. E. Chen, T. E. Cowan, and X. Q. Yan, Ion acceleration enhanced by target ablation, Physics of Plasmas,(2015), 22: 073106
8 B. Liu, R. H. Hu, H. Y. Wang, D. Wu, J. Liu, C. E. Chen, J. MeyerterVehn, X. Q. Yan, and X. T. He, Quasimonoenergetic electron beam and brilliant gammaray radiation generated from near critical density plasma due to relativistic resonant phase locking, Physics of Plasmas,(2015), 22: 080704
9 J. H. Bin, W. J. Ma, H. Y.Wang, M. J. V. Streeter, C. Kreuzer, D. Kiefer, M. Yeung, S. Cousens, P. S. Foster, B. Dromey, X. Q. Yan, R. Ramis, J. MeyerterVehn, M. Zepf and J. Schreiber, Ion Acceleration Using Relativistic Pulse Shaping in NearCriticalDensity Plasmas, PRL,(2015), 115: 064801
10 H. Y. Wang, X. Q. Yan and M. Zepf, Highenergy monoenergetic proton beams from two stage acceleration with a slow laser pulse, Physical Review Special TopicsAccelerators and Beams 18, 021302 (2015)
11 R. H. Hu, B. Liu, H. Y. Lu, M. L. Zhou, C. Lin, Z. M. Sheng, C. E. Chen, X. T. He and X. Q. Yan, Dense Helical Electron Bunch Generation in NearCritical Density Plasmas with Ultrarelativistic Laser Intensities, Scientific Reports, (2015), 5:15499
12 K. Q. Pan, C. Y. Zheng*,D. Wu and X. T. He, Tunable hard xray source from obliquely incident intense laser interacting with overdense solid targets,Physics of Plasmas,(2015), 22: 083301–7
13 K. Q. Pan, C. Y. Zheng, D. Wu, L. H. Cao, Z. J. Liu and X. T. He*, Study of strong enhancement of synchrotron radiation via surface plasma wave excitation by particleincell simulations,Applied Physics Letters, (2015), 107: 183902–4
14 C. Z. Xiao, Z. J. Liu, D. Wu, C. Y. Zheng*and X. T. He*, Nonlinera evolution of stimulated Raman scattering near the quartercritical density, Physics of Plasmas, (2015), 22: 052121–11
15 T. W. Huang, C. T. Zhou and X. T. He, Selfshaping of a relativistic elliptically Gaussian laser beam in underdense plasmas, Laser and Particle Beams, (2015), 33: 347–353
16 K. D. Xiao, C. T. Zhou, B. Qiao and X. T. He, Guiding and collimation of laseraccelerated proton beams using thin foils followed with a hollow plasma channel, Physics of Plasmas, (2015), 22: 093112
17 T. W. Huang, C. T. Zhou* A. P. L. Robinson, B. Qiao, H. Zhang, S. Z. Wu, H. B. Zhuo, P. A. Norreys and X. T. He, Mitigating the relativistic laser beam filamentation via an elliptical beam profile, Physical Review E, (2015), 92: 053106
18 K. L. Wu and H. Z. Tang, Highorder accurate physicalconstraintspreserving finite difference WENO schemes for special relativistic hydrodynamics, J. Comput. Phys.,(2015), 298: 539564.
19 J. Xu, S. H. Shao, H. Z. Tang and Dongyi Wei, Multihump solitary waves of nonlinear Dirac equation, Comm. Math. Sci., (2015), 13(5): 12191242
20 L. F. Wang, J. F. Wu, H. Y. Guo, W. H. Ye, Jie Liu, W. Y. Zhang, and X. T. He. Weakly nonlinear BellPlesset effects for a uniformly converging cylinder, Physics of Plasmas,(2015), 22: 082702/19
21 J. F. Wu, W. Y. Miao, L. F. Wang, Z. R. Cao, X. J. Yu, W. H. Ye, W. D. Zhen, J. Liu, M. Wang, S. E. Jiang, W. B. Pei, S. P. Zhu, Y. K. Ding, W. Y. Zhang and X. T. He, Experimantal analysis of indirectdrive ablative RayleighTaylor instability on Shengguang Ⅱ, High Power Laser and Partical Beams, (2015), 27(3)(In Chinese)
22 L. F. Wang, H. Y. Guo, J. F. Wu, W. H. Ye, J. Liu, W. Y. Zhang and X. T. He, Weakly nonlinear RayleighTaylor instability of a finitethickness fluid layer, Physics of Plasmas,(2014), 21: 122710/114
23 T. Sun, W. Kang and J. X. Wang, Impact of isotopic disorders on thermal transport properties of nanotubes and nanowires, Journal of Applied Physics, (2015), 117: 035101
24 H. Dong and J. X. Wang, A criterion for failure mode prediction of angleply composite laminates under inplane tension, Composite Structures, (2015), 128: 234—240
25 H. Dong, J. X. Wang and M.B. Rubin, A nonlinear Cosserat interphase model for residual stresses in an inclusion and the interphase that bonds it to an infinite matrix, International Journal of Solids and Structures, (2015), 62: 186—206
26 F. Du, H. L. Duan, C. Y. Xiong and J. X. Wang, Substrate wettability requirement for the direct transfer of graphene, Applied Physics Letters, (2015), 107: 143109
27 Y. H. Zhao, Z. K. Wu, S. L. Bai, Study on thermal properties of graphene foam/graphene sheets filled polymer composites, Composites part A, (2015), 72: 200–206
28 Y. H. Zhao, Y. F. Zhang, Z. K. Wu and S. L. Bai, Synergic enhancement of thermal properties of polymer composites by graphene foam and carbon black, Composites part B,(2016), 84: 5258
29 Z. K. Wu, Z. Y. Lin, L. Y. Li, B. Song, C. C. Tuan, Z. Li, K. S. Moon, S. L. Bai and C. P. Wong, Capacitance enhancement by electrochemically active benzene derivatives for graphenebased supercapacitors, RSC Advances, (2015), 5: 84113
30 D. Han, Y. H. Zhao, Y. F. Zhang and S. L. Bai, Vertically and compactly rolledup reduced graphene oxide film/epoxy composites: a twostage reduction method for graphenebased thermal interfacial materials, RSC Adv., (2015), 5: 94426.
31 X. M. Xiong, J. J. Tao, S. Y. Chen and L. Brandt, Turbulent bands in planePoiseuille flow at moderate Reynolds numbers, Phys. Fluids,(2015), 27: 041702.
32 L. Brandt and J. J. Tao, Editorial: Recent advances in hydrodynamic instability and transition to turbulence, Theoretical and Applied Mechanics Letters, (2015), 5: 101–102
33 S. Zhao*, W. Kang and J. M. Xue, MXene nanoribbons,J. Mater. Chem. C, (2015), 3:879.
34 S. Zhao, W. Kang*, J. M. Xue, X. T. Zhang and P. Zhang, H+ (D+, T+)–beryllium collisions studied using timedependent density functional theory, [J]. Physics Letters A, (2015), 379(4):319–326.
35 S. Zhao and J. M .Xue*, Modification of graphene supported on SiO2 substrate with swift heavy ions from atomistic simulation point, [J]. Carbon, (2015), 93:169–179.
36 W, S, Li, X. W. Wang, X. T. Zhang, S. J. Zhao, H. L. Duan and J. M. Xue*, Mechanism of the Defect Formation in Supported Graphene by Energetic Heavy Ion Irradiation: the Substrate Effect, Scientific Reports, (2015), 5:9935.
37 W. S. Li and J. M. Xue*, Ion implantation of low energy Si into graphene: insight from computational studies, RSC Advances,(2015), 5: 99920.
38 X. Guo, X. T. Zhang, S. J. Zhao, Q. Huang and J. M. Xue*, High adsorption capacity of heavy metals on twodimensional MXenes: an ab initio study with molecular dynamics simulation, Physical Chemistry Chemical Physics, (2015).
39 J. M. Xue, P. Guo and Q. Sheng, Surfacechargegoverned electrolyte transport in carbon nanotubes, [J]. Chin. Phys. B, (2015), 24(8):086601
40 X. Z. Xiao, D. K. Song, H. J. Chu, J. M. Xue and H. L. Duan*, Mechanical behaviors of irradiated FCC polycrystals with nanotwins. International Journal of Plasticity, (2015), 74: 110126
41 Y. H. Xue, P. Y. Lv, Y. Liu, Y. P. Shi, H. Lin and H. L. Duan*, Morphology of gas cavities on patterned hydrophobic surfaces under reduced pressure, Physics of Fluids, (2015), 27: 092003
42 D. Terentyev, X. Z. Xiao, A. Dubinko., A. Bakaeva and H. L. Duan*, Dislocationmediated strain hardening in tungsten: Thermomechanical plasticity theory and experimental validation, Journal of the Mechanics and Physics of Solids, (2015), 85: 115
43 X. Z. Xiao, D. Terentyev, L. Yu., D. K. Song, A. Bakaev and H. L. Duan*, Modelling irradiationinduced softening in BCC iron by crystal plasticity approach, Journal of Nuclear Materials, (2015), 466: 312315
44 F. Hui, P. Vajha, Y. Y. Shi, Y. F. Ji and H. L. Duan, A. Padovani, L. Larcher, X. R. Li, J. J. Xu and M. Lanza*, Moving graphene devices from lab to market:advanced graphenecoated nanoprobes, Royal Society of Chemistry, (2015), DOI: 10.1039/c5nr06235g
45 X. Z. Xiao, D. K. Song, H. J. Chu, J. M. Xue and H. L. Duan*, Mechanical properties for irradiated FCC nanocrystalline metals, Proceedings of the Royal Society A, (2015), 471: 20140832
46 D. K. Song, X. Z. Xiao, J. M. Xue, H. J. Chu and H. L. Duan*, Mechanical properties of irradiated multiphase polycrystalline BCC materials, Acta Mechanica Sinica,(2015), 31(2): 191 204
47 X. Z. Xiao, D. K. Song, J. M. Xue, H. J. Chu and H. L. Duan*, A selfconsistent plasticity theory for modeling the thermomechanical properties of irradiated FCC metallic polycrystals, Journal of the Mechanics and Physics of Solids, (2015), 78: 116
48 P. Y. Lv, Y. H. Xu, H. Liu, Y. P. Shi, P. Xi, H. Lin and H. L. Duan*, Symmetric and Asymmetric Meniscus Collapse in Wetting Transition on Submerged Structured Surfaces, Langmuir,(2015), 31: 12481254
49 Y. Y. Shi, Y. F. Ji, H. Sun, F. Hui, J. C. Hu, Y. X. Wu, J. L. Fang, H. Lin, J. X. Wang, H. L. Duan* and M. Lanza*, Nanoscale characterization of PM2.5 airborne pollutants reveals high adhesiveness and aggregation capability of soot particles, Scientific Reports, (2015), 5: 11232
50 F. Hui, Y. Y. Shi, Y. F. Ji, M. Lanza and H. L. Duan*, Mechanical properties of locally oxidized graphene electrodes, Arch Appl Mech, (2015), 85: 339–345
51 M. T. Hoang, J. Yvonnet*, A. Mitrushchenkov, G. Chambaud1， H. L. Duan, Sizedependent mechanical properties of axial and radial mixed AlN/GaN nanostructure, Nanotechnology,(2015), 26: 115703
52 F. Hui, M. Porti, M. Nafria, H. L. Duan, M. Lanza*, Fabrication of graphene MEMS by standard transfer: high performance atomic force microscope tips, 2015 10th Spanish Conference on Electron Devices (CDE).
53 X. Z. Xiao, D. K. Song, J. M. Xue, H. J. Chu and H. L. Duan*, a sizedependent tensorial plasticity model for FCC single crystal with irradiation, International Journal of Plasticity,(2015), 65: 152167
54 "Y. H. Xue, Y. Wu，X. W. Pei, H. L. Duan*, Q. J. Xue, F. Zhou*, How Solid−Liquid Adhesive Property Regulates Liquid Slippage on
Solid Surfaces?, Langmuir, (2015), 31:226232"
55 X. Z. Xiao, D. K. Song, H. J. Chu, J. M. Xue and H. L. Duan*, Irradiation hardening for metallic materials, Advances in Mechanics, (2015), 45: 201505.(In Chinese)
56 H .L. Duan, P. M. Porti, M. M. Lanza, A. Bayerl and M. M. Nafría, Electrode for a nanogenerator with a piezoelectric material made of nanowires, International patent, Ref. no. WO2015004231A1, January 15, 2015.
57 J. C. Li, X. W. Chen* and F. L. Huang, FEM analysis on the “selfsharpening” behavior of tungsten fiber / metallic glass matrix composite long rod, International Journal of Impact Engineering, (2015), 86: 6783
58 H. B. Cai, C. T. Zhou, Q. Jia, S. Z. Wu, M. Q. He, L. H. Cao, M. Chen, H. Zhang, J. Liu, S. P. Zhu and X. T. He, Laserdriven relativistic electron beam for fast ignition, High Power Laser and Particle Beams, (2015), 27: 032001 (In Chinese)
59 X. T. He, H. B. Cai, S. Z. Wu, L. H. Cao, H. Zhang, M. Q. He, M. Chen, J. F. Wu, C. T. Zhou et al., Physical studies of fast ignition in China, Plasma Phys. Control. Fusion, (2015), 57: 064003
60 "W. S. Zhang, H. B. Cai, S. P. Zhu, Guiding and focusing of fast electron beams produced by ultraintense laser pulse
using a double cone funnel target, Physics of Plasmas, (2015), 22: 103109"
61 Q. Jia, K. Mima, H. B. Cai, T. Taguchi, H. Nagatomo and X. T. He, Selfgenerated magnetic dipoles in weakly magnetized beamplasma system, Phys. Rev. E, (2015), 91: 023107
62 M. Q. He, H. B. Cai, H. Zhang, Q. L. Dong, C. T. Zhou, S. Z. Wu, Z. M. Sheng, L. H. Cao, C. Y. Zheng, J. F. Wu, M. Chen, W. B. Pei, S. P. Zhu and X. T. He, A spherical shell target scheme for laserdriven neutron sources, Phys. Plasmas, (2015), 22: 0000001
63 J. C. Hu, C. B. Pan, H. Li, P. P. Shen, H. Sun, H. L. Duan and M. Lanza, Improvement of the electrical contact resistance at rough interfaces using two dimensional materials, Journal of Applied Physics, (2015), 118: 215301
64 Z. N. Cai, Y. W. Fan and R. Li, A Framework on Moment Model Reduction for Kinetic Equation, Siam Journal on Applied Mathematics, (2015), 75(5):20012023
65 Y. N. Di, Z. Z. Kou and R. Li, High order moment closure for VlasovMaxwell equations, Front. Math. China, (2015), 10(5): 1087–1100
66 K. Wang, X. L. Guo, H. T. Liu, D. F. Li, F. Y. Long, X. Y. Han, B. Duan, J. G. Li, M. Huang, Y. S. Wang, R. Hutton, Y. M. Zou, J. L. Zeng, C. Y. Chen and J. Yan, SYSTEMATIC CALCULATIONS OF ENERGY LEVELS AND TRANSITION RATES OF BELIKE IONS WITH Z = 10–30 USING A COMBINED CONFIGURATION INTERACTION AND MANYBODY PERTURBATION THEORY APPROACH, The Astrophysical Journal Supplement Series, (2015), 218:16
67 S. Li, J. Yan, C. Y. Li, R. Si, X. L. Guo, M. Huang, C. Y. Chen, and Y. M. Zou, Radiative rates and electronimpact excitation for the n <= 6 finestructure levels in Hlike ions with 13 <= Z <= 42, A&A, (2015), 583: A82.
68 S. Li, J. Yan, C. Y. Li, M. Huang and C. Y. Chen, Resonance enhanced electron impact excitation for Plike Cu XV, Chin. Phys. B, (2015), 24: 113401.
69 X. L. Guo, M. Huang, J. Yan, S. Li, R. Si, C. Y. Li, C. Y. Chen, Y. S. Wang and Y. M. Zou, Relativistic manybody calculations on wavelengths and transition probabilities for forbidden transitions within the 3dk ground configurations in Co through Klike ions of hafnium, tantalum, tungsten and gold, J. Phys. B: At. Mol. Opt. Phys., (2015), 48: 144020.
70 R. Si, X. L. Guo, J. Yan, C. Y. Li, S. Li, M. Huang, C. Y. Chen and Y. M. Zou, Energy levels and transition rates for Mglike Kr XXV, J. Phys. B: At. Mol. Opt. Phys.,(2015), 48: 175004
71 R. Si, X. L. Guo, J. Yan, C. Y. Li, S. Li, M. Huang, C. Y. Chen, Y. S. Wang, Y. M. Zou, Energy levels and oscillator strengths for Mglike copper, Journal of Quantitative Spectroscopy & Radiative Transfer, (2015), 163: 723.
72 H. Zheng and J. B. Wu*, Convergence analysis on multigrid method for elliptic problem with large jumps in coefficients, IMA J. Numer. Anal., (2015), 35(4): 18881912.
73 S. H. Zhang, J. Zhou, Q. Wang*, X. S. Chen, Y. Kawazoe and P. Jena, Pentagraphene: A new carbon allotrope, Proc. Natl. Acad. Sci. USA, (2015), 112: 2372
74 K. W. Ding, X. W. Li, H. G. Xu, T. Q. Li, Z. X Ge, Q. Wang* and W. J. Zheng*, Experimental observation of TiN12+ cluster and theoretical investigation of its stable and metastable isomers, Chem. Sci. (2015), 6: 47234729
75 F. Q. Wang, S. H. Zhang, J. B. Yu and Q. Wang*, Thermoelectric Properties of Singlelayer SnSe Sheet, Nanoscale, (2015), 7: 15962 15970
76 Y. Yang and P. Zhang, Firstprinciples molecular dynamics study of water dissociation on the γU(1 0 0) surface, J. Phys.: Condens. Matter, (2015), 27: 175005
77 Y. G. Guo, Q. Wang*, Y. Kawazoe and P. Jena, A New Silicon Phase with Direct Band Gap and Novel Optoelectronic Properties, Scientific Reports, (2015), 5: 14342
78 J. Liu, Y. G. Guo, S. H. Zhang, Q. Wang*, Y. Kawazoe and P. Jena, New Phosphorene Allotropes Containing Ridges with 2 and 4Coodination, J. Phys. Chem. C., (2015), 119: 2467424680
79 S. Y. Zhu and Q. Wang*, A simple method for understanding the triangular growth patterns of transition metal dichalcogenide sheets, AIP Advances, (2015), 5: 107105
80 J. Zhou, S. H. Zhang, Q. Wang, Y. Kawazoe and P. Jena*, Selfassembly of metal atoms (Na, K, Ca) on graphene, Nanoscale, (2015), 7: 23522359
81 Y. W. Li , S. H. Zhang, J. B. Yu, Q. Wang, Q. Sun* and P. Jena, A new C=C embedded porphyrin sheet with superior oxygen reduction performance, Nano Research, (2015), 8: 2901–2912
82 J. Zhou*, Q. Sun, Q. Wang and P. Jena, Hightemperature superconductivity in heavily N or Bdoped graphene, Phys. Rev. B, (2015), 92: 064505
83 J. Zhou, Q. Wang, Q. Sun, Y. Kawazoe and P. Jena*, Giant magnetocrystalline anisotropy of 5d transition metalbased phthalocyanine sheet, Phys. Chem. Chem. Phys., (2015), 17: 17182
84 H. Wang, L. H. Cao and X. T. He*, Collimated proton beams by ultrashort, ultraintense laser pulse interaction with a foil–ramparts target, Laser and Particle Beams, (2015), 33: 765–771.
85 S. Z. Wu, H. Zhang, C. T. Zhou, J. F. Wu, H. B. Cai, L. H. Cao, M. Q. He, S. P. Zhu and X. T. He, Energy Deposition of Fast Electrons in Fast Ignition, High Power Laser and Particle Beams, (2015), 27: 032010 (In Chinese)
86 J. G. Chen, Y. J. Yang, J. Chen and B. B. Wang, Probing dynamic information and spatial structure of Rydberg wave packets by harmonic spectra in a fewcycle pulse, Physical Review A, (2015), 91: 043403
87 S. L. Hu, Z. X. Zhao, J. Chen and T. Y. Shi, Ionization dynamics of C2H2 in intense laser fields: Timedependent hartreeFock approach, Physical Review A, (2015), 92: 053409
88 Q. Z. Xia, D. F. Ye, L. B. Fu, X. Y. Han and J. Liu*, Momentum Distribution of NearZeroEnergy Photoelectrons in the StrongField Tunneling Ionization in the Long Wavelength Limit, Scientific Reports, (2015), 5: 11473.
89 X. G. Xie, C. Y. Wu, Z. Q. Yuan, D. F. Ye, P. Wang, Y. K. Deng, L. B. Fu*, J. Liu, Y. Q. Liu, Q. H. Gong, Dynamical coupling of electrons and nuclei for Coulomb explosion of argon trimers in intense laser fields, Phys. Rev. A, (2015), 92, 023417.
90 W. Y. Wang, J. Liu, and L. B. Fu*, Measure synchronization in a spinorbitcoupled bosonic Josephson junction, Phys. Rev. A, (2015), 92, 053608.
91 R. Cheng, C. Y. Zhang, L. B. Fu and, J. Liu*, Molecular dynamics simulations of anisotropic explosions of small hydrogen clusters in intense laser pulses, J. Phys. B, (2015), 48: 035601
92 Z. Q. Yuan, D. F. Ye, Q. Z. Xia, J. Liu and L. B. Fu*, Intensitydependent twoelectron emission dynamics with orthogonally polarized twocolor laser fields, Phys. Rev. A，(2015), 91: 063417
93 C. X. Zhang, J. Liu and L. B. Fu*, Anomalous Fano resonance of massive Dirac particle through a timedependent barrier, (2015), EPL, 110: 61001.
94 Z. F. Feng, W. Li, C. X. Yu, X. Liu, J. Liu and L. B. Fu*, Extended laser filamentation in air generated by femtosecond annular Gaussian beams, Phys. Rev. A, (2015), 91: 033839
95 W. Y. Wang, H. Cao, J. Liu and L. B. Fu*, Spinorbitcoupled BEC in a doublewell potential: Quantum energy, Phys. Lett. A, (2015), 379, 1762
96 W. Y. Wang, H. Cao, S. L. Zhu, J. Liu and L. B. Fu*, Energy levels of a spinorbitcoupled BoseEinstein condensate in a doublewell potential, Laser Phys. (2015), 25: 025501
97 Z. Li, H. Cao and L. B. Fu*, Zitterbewegung for ultracold atoms in the merging of Dirac points， Phys. Rev. A，(2015), 91: 023623
98 H. Cao, Q. Wang and L. B. Fu*, Quantum transition and parity effects of three coupled BoseEinstein condensates subjected to an artificial gauge potential, Laser Phys. (2015), 25: 065501
99 L. C. Zhao, L. M. Ling, Z. Y. Yang and J. Liu, Pairtunneling induced localized waves in a vector nonlinear Schrodinger equation, Commun. Nonlinear Sci. Numerical Simul. (2015), 23, 21
100 T. C. He, W. D. Li, L. Li, J. Liu and Q. Niu, Stationary solutions for nonlinear Schrodinger equation with ring trap and their evolution under the periodic kick force, Romanian Reports in Physics, (2015)，67: 207
101 S. Li, K. Lan, D. X. Lai, J. Liu, Monte Carlo simulation of the radiation transport of spherical holhraum, Acta Phys. Sin. (2015), 64: 145203 (In Chinese)
102 A. G. Xu*, C. D. Lin, G. C. Zhang and Y. J. Li, Multiplerelaxationtime lattice Boltzmann kinetic model for combustion, PHYSICAL REVIEW E (2015), 91: 043306
103 Y. B. Gan, A. G. Xu*, G. C. Zhang and S. Succi, Discrete Boltzmann modeling of multiphase flows: hydrodynamic and thermodynamic nonequilibrium effects, Soft Matter, (2015), 11: 5336
104 A. G. Xu, G. C. Zhang and Y. J. Ying, Progess of discrete Boltzmann modeling and simulation of combustion system, Acta Phys. Sin., (2015), 64: 184701 (In Chinese)
105 C. D. Lin, A. G. Xu, G. C. Zhang and Y. J. Li, An Efficient TwoDimensional Discrete Boltzmann Model of Detonation, Advances in Condensed Matter Physics, (2015), 3: 102111 (In Chinese)
106 Y. D. Zhang, A. G. Xu, G. C. Zhang and C. M. Zhu, Study on the Influence of Chemical Reaction Rate on Detonation Characteristics  Base on Discrete Boltzmann Model, Advances in Condensed Matter Physics, (2015), 3: 8592 (In Chinese)
107 H. C. Miao and F. X. Li*, Realization of faceshear piezoelectric coefficient d36 in PZT ceramics via ferroelastic domain engineering. Appl Phys Lett, (2015), 107: 122902
108 J. Fu and F. X. Li*, A fingerlike hardness tester based on the contact electromechanical impedance of a piezoelectric bimorph cantilever, Review of Scientific Instruments, (2015), 86: 103902
109 J. Fu, C. Tan and F. X. Li*, Quantitative electromechanical impedance method for nondestructive testing based on a piezoelectric bimorph cantilever, Smart Mater Struct, (2015), 24: 065038
110 J. Fu and F. X. Li*, A forefingerlike tactile sensor for elasticity sensing based on piezoelectric cantilevers, Sensors & Actuators A, (2015), 234: 351–358
111 J. Fu, Y. Q. Liu, X. L. Zhou, Y. W. Li and F. X. Li*, Local contact stiffness detection for nondestructive testing based on the contact resonance of a piezoelectric cantilever, Journal of Vibration and AcousticsT ASME, (2015), 137: 051011
112 D. Wu, B. Qiao* and X. T. He, The radiation reaction effects in the ultraintense and ultrashort laser foil interaction regime, Phys. Plasmas, (2015), 22: 093108.
113 H. X. Chang, B. Qiao*, Z. Xu, X. R. Xu, C. T. Zhou, X. Q. Yan, S. Z. Wu, M. Borghesi, M. Zepf and X. T. He, Generation of overdense and highenergy electronpositronpair plasmas by irradiation of a thin foil with two ultraintense lasers, Phys. Rev. E (2015), 92: 053107
114 Y. W, Li, S. H. Chana and Q. Sun*， Heterogeneous catalytic conversion of CO2: a comprehensive theoretical review, Nanoscale, (2015), 7: 8663
115 M. Kan, B. Wang, Y. H. Lee* and Q. Sun*， A density functional theory study of the tunable structure, magnetism and metal–insulator phase transition in VS2 monolayers induced by in  plane biaxial strain. Nano Research, (2015), 8(4): 1348–1356.
116 J. Y. Liu and Q. Sun*, Enhanced Ferromagnetism in a Mn3C12N12H12 Sheet, ChemPhysChem, (2015), 16: 614 – 620
117 Q. Q. Ji, M. Kan, Y. Zhang, Y. Guo, D. L. Ma,†J. P. Shi, Q. Sun, Q. Chen, Y. F. Zhang and Z. F. Liu，Unravelling Orientation Distribution and Merging Behavior of Monolayer MoS2 Domains on Sapphire, Nano Lett. (2015), 15: 198−205.
118 G. Z. Zhu , Q. Sun,*, Y. Kawazoe, P. Jena， Porphyrinbased porous sheet: Optoelectronic properties and hydrogen storage, International Journal of Hydrogen Energy, (2015), 40: 36893696
119 M. Kan, H. G. Nam, Y. H. Lee* and Q. Sun*. Phase stability and Raman vibration of the molybdenum ditelluride (MoTe2) monolayer, Phys.Chem.Chem.Phys., (2015), 17: 14866
120 R. Li, T. Lu* and W. Q. Yao, Discrete Kernel Preserving Model for 1D ElectronOptical Phonon Scattering, Journal of Scientific Computing, (2015), 62(2): 317335
121 S. Li, K. Lan and J. Liu, Study on size of laser entrance hole shield for ignition octahedral spherical hohlraums, Laser and Particle Beams, (2015), 33: 19
122 K. Ren, S. Y. Liu, L. F. Hou, H. B. Du, G. L. Ren, W. Y. Huo, L. F. Jing, Y. Zhao, Z. W. Yang, M. X. Wei, K. L. Deng, L, Yao, Z. C. Li, D. Yang, C. Zhang, J. Yan, G. H. Yang, S. W. Li, S. E. Jiang, Y. K. Ding, J. Liu and K. Lan, Direct measurement of xray flux for a prespecified highlyresolved region in hohlraum, Optics Express (2015), 23: A1072.
123 S. Q. Tang and B. Y. L. Liu, Heat jet approach for atomic simulations at finite temperature, Comm. Comput. Phys., 18(5): 14451460
124 唐少强，孤立波与孤子，力学与实践,（2015）,37(2): 272276
125 S. J. Zhao, W. Kang, J. M. Xue, X. T. Zhang, P. Zhang, Comparison of electronic energy loss in graphene and BN sheet by means of timedependent density functional theory, J. Phys.: Condens. Matter, (2015), 27: 025401
126 S. J. Zhao, S. Zhang, W. Kang, P. Zhang, X. T. He, Firstprinciples calculation of principal Hugoniot and Kshell Xray absorption spectra for warm dense KCl, Physics of Plasma, (2015), 22: 062707
127 Z. G. Fu, Z. G. Wang, D. F. Li, W. Kang and P. Zhang, Generalized LenardBalescu calculations of electronion temperature relaxation in beryllium plasma, Physics Review E, (2015), 92: 033103
128 D. F. Li, C. Wang, W. Kang, J. Yan and P. Zhang, Transport properties of hydrogenhelium mixtures at extreme density and temperature conditions, Physics Review E, (2015), 92: 043108
129 K. Jiang, J. J. Tong, P. W. Zhang and A. C. Shi, Stability of Twodimensional Soft Quasicrystals in Systems with Two Length Scales, Physics Review E, (2015), 92(4): 042159
130 K. Jiang, W. Q. Xu and P. W. Zhang, Analytic Structure of the SCFT Energy Functional of Multicomponent Block Copolymers, Commun. Comput. Phys.; 17(5); 13601387
131 S. Mei and P. W. Zhang, On a Molecular Based QTensor Model for Liquid Crystals with Density Variations, Multiscale Modeling & Simulation, (2015), 13(3): 9771000
132 S. Xiong and G. X. Cao, Molecular dynamics simulations of mechanical properties of monolayer MoS2, Nanotechnology, (2015), 26: 185705
133 G. X. Cao, Nonlinear anisotropic deformation behavior of a Q1 Q2 graphene monolayer under uniaxial tension, Phys. Chem. Chem. Phys., (2015), 00: 19
134 M. Yang, L. L. Wang, H. B. Zhou and S. D. Zhang, Study on mixing induced by RichtmyerMeshkov instability by using buoyancydrag model, Explosion and Shock Waves, (2015), 35(3) (In Chinese)
135 C. Wang, Z. F. Fan, X. T. He, W. H. Ye and P. Zhang, “Applications of density functional theory deuteriumtritium equation of state in directdrive inertial confinement fusion implosions”, Phys. Plasmas, (2015), 22: 062708
136 C. Y. Li, C. Wang, Z. Q. Wu, Z. Li, D. F. Li and P. Zhang, “Electrical and optical properties of warm dense beryllium along the principal Hugoniot”, Phys. Plasmas,(2015), 22: 092705
137 C. Wang, Z. Li, D. F. Li and P. Zhang, “Ab initio determination of the instability growth rate of warm dense berylliumdeuterium interface”, Phys. Plasmas, (2015), 22: 102702
138 Z. Li, C. Wang, W. Kang, C. Y. Li and P. Zhang, “Temperature and compression effects on electron heat capacity and electronphonon coupling in aluminum and beryllium: Insights from ab initio simulations”, Phys. Plasmas, (2015), 22: 112705
139 C. Wang, X. T. He and P. Zhang, Quantum nuclear effects in the wide range equations of states for hydrogen and its istopes, High Power Laser and Particle Beams,(2015), 27: 032008 (In Chinese)
140 Y. P. Shi, J. C. Wang, Y. T. Yang, Z. L. Xiao and X. T. He, Progress in the Research on Compressible turbulence, High Power Laser and Particle Beams,(2015), 27: 032002 (In Chinese)
141 Z. H. Xia, Y. P. Shi, Y. Chen, M. R. Wang and S. Y. Chen，Comparisons of different implementations of turbulence modeling in lattice Boltzmann method，Journal of Turbulence, (2015), 16(1): 6780
142 Z. H. Xia, Y. P. Shi and Y. M. Zhao，Assessment of the shearimproved Smagorinsky model in laminarturbulent transitional channel flow，Journal of Turbulence, (2015), 16(10): 925–936
143 Y. Liu, D. Wu, S. B. Yao and J. P. Wang, Analytical and Numerical Investigations of WedgeInduced Oblique Detonation Waves at Low Inflow Mach Number, Combustion Science and Technology, (2015), 187: 843856
144 S. B. Yao, M. Liu and J. P. Wang, Numerical Investigation of Spontaneous Formation of Multiple Detonation Wave Fronts in Rotating Detonation Engine, Combustion Science and Technology, (2015), 187: 1867–1878
145 Y. S. Liu, Y. H. Wang, Y. S. Li, Y. Li and J. P. Wang, Spectral analysis and selfadjusting mechanism for oscillation phenomenon in hydrogenoxygen continuously rotating detonation engine, Chinese Journal of Aeronautics, (2015), 28: 669675
146 R. Su, H. Zhang, W. Han and J. Chen*，Ab Initio Study of the Dynamical Si–O Bond Breaking Event in αQuartz，CHIN. PHYS. LETT. (2015), 32(10): 107803
147 Y. Long and J. Chen*，Theoretical study of the thermodynamic properties, phase transition wave, and phase transition velocity for octahydro1,3,5,7tetranitro1,3,5,7tetrazocine，J.Appl.Phys, (2015), 118: 115901
148 Y. Long and J. Chen*，Systematic Study of the Reaction Kinetics for HMX, J. Phys. Chem. A, (2015), 119: 4073
149 Y. Xu and J. Chen*,Atomistic potentials based energy flux integral criterion for dynamic adiabaticshearbanding, Journal of the Mechanics and Physics of Solids, (2015), 75: 45–57
150 Y. Long and J. Chen*，A theoretical study of the stress relaxation in HMX on the picosecond time scale,Modelling Simul. Mater. Sci. Eng., (2015), 23: 085001 (23pp)
151 Y. Chen, Q. J. Kang, Q. D. Cai,∗, M. R. Wang∗ and D. X. Zhang, Lattice Boltzmann Simulation of Particle Motion in Binary Immiscible Fluids, Commun. Comput. Phys., (2015), 18(3): 757786
152 J. Gai, Z. H. Xia and Q. D. Cai, Effects of the computational domain on the secondary flow in turbulent plane Couette flow, Chin. Phys. B, (2015), 24(10): 104701
153 S. Z. Chen, K. Xu∗ and Q. D. Cai, A Comparison and Unification of Ellipsoidal Statistical and Shakhov BGK Models, Adv. Appl. Math. Mech., (2015), 7(2): 245266
154 H. Shen, C. Y. Wen, K. X. Liu and D. L. Zhang, Robust highorder space–time conservative schemes for solving conservation laws on hybrid meshes, Journal of Computational Physics, (2015), 281: 375–402
155 Y. T. Chen and K. X. Liu, Crack propagation in viscoplastic polymers: Heat generation in neartip zone and viscoplastic cohesive model, Applied Physics Letters, (2015), 106: 061908 (2015)
156 T. F. Yang, C. A. Taylor, C. X. Wang, Y. W. Zhang, W. J. Weber, J. R. Xiao, J. M. Xue, S. Yan and Y. G. Wang*, Effects of He Irradiation on YttriaStabilized Zirconia Ceramics, J. Am. Ceram. Soc.,(2015), 98: 13141322
157 T. F. Yang, S. Q. Xia, S. Liu, C. X. Wang, S. S. Liu, Y. Zhang, J. M. Xue , S. Yan and Y. G. Wang*, Effects of Al addition on microstructure and mechanical properties of AlxCoCrFeNi Highentropy alloy, Mater. Sci. Eng. A,(2015), 648：1522
158 C. X. Wang, T. F. Yang, J. R. Xiao, S. S. Liu, J. M. Xue, J. Y. Wang, Q. Huang and Y. G. Wang*, Irradiationinduced structural transitions in Ti2AlC, Acta Mater., (2015), 98: 197205.
159 C. X. Wang, T. F. Yang, J. R. Xiao, S. S. Liu, J. M. Xue, Q. Huang, J. Zhang, J. Y. Wang, Y. G. Wang*, Irradiationinduced structural transitions in Ti2AlC, Journal of the American Ceramic Society, (2015), 19
160 S. E. Jiang*, Y. B. Huang, L. F. Jing and J. Y. Zhang, A novel scheme for direct drive target with enhanced radiation, Phys. Scr. (2015), 90: 085603
161 L. F. Jing, S. E. Jiang*, D. Yang, H. Li, L. Zhang, Z. W. Lin, L. L. Li, L. Y. Kuang, Y. B. Huang and Y. K. Ding, Angular radiation temperature simulation for timedependent capsule drive prediction in inertial confinement fusion, Phys. Plasmas, (2015), 22: 022709
162 L. L. Li, S. E. Jiang*, L. Zhang, J. H. Zheng, B. Qing, J. Y. Zhang, L. Y. Kuang and H. Li, The importance of the transmission flux in evaluating the preheat effect in xray driven ablation, Phs. Plasmas, (2015), 22: 022702
163 Y. D. Pu, T. X. Huang, H. L. Lei, P. Li, X. Zhang, J. H. Zheng, Z. W. Yang, Q. Tang, Z. F. Song, J. M. Yang, S. Y. Liu, S. E. Jiang* and Y. K. Ding, Directdrive cryogenictarget implosion experiments on SGIII prototype laser facility, Phys. Plasmas, (2015), 22: 042704
164 L. L. Li, S. E. Jiang*, H. Li, L. Zhang, Y. S. Dong, C. Zhang,J. H. Zheng, J. Y. Zhang, L. Y. Kuang, L. F. Jing, Z. W. Lin, and J. M. Yang. A method for evaluating the mean preheat temperature in Xray driven ablation. Phys. Plasmas, (2015), 22: 032705
165 L. F. Jing, H. Li, Z. W. Lin, L. L. Li, L. Y. Kuang, Y. B. Huang, L. Zhang, T. X. Huang, S. E. Jiang* and Y. K. Ding,Influence of Capsule Offset on Radiation Asymmetry in ShenguangII Laser Facility, Plasma Sci. & Tech.,(2015), 17: 842
166 J. H. Zheng, J. Yan, M. X. Wei, J. Li, S. E. Jiang*, Design and application of Ross filter spectrometer covering 1888 keV, High Power Laser and Particle Beams, (2015)，27: 122001 (in Chinese)
167 J. H. Zheng, J. Yan,M. Su, X. Zhang, Z. Q. Zhao, S. E. Jiang, Y. Ma, Y. G. Fu, G. Li,B. Y. Zhang, L. Deng, Numerical study on characteristics of neutron and gamma radiations from implosions on Shenguang III laser facility, High Power Laser and Particle Beams, (2015)，27: 112007 (in Chinese)
