Publications：

41. Jia-En Yang, Xiao-Long Lü , and Hang Xie, "Modulation of antichiral edge states in zigzag honeycomb nanoribbons by side potentials", Communications Physics, 6, 62, (2023).

 

40. Sen-Hua Ye，Jian-Jun Dong and  Hang Xie, "Magnetic-atom and electric-field induced magnetic phase transitions in ABC-trilayer graphene nanoribbons", Physica E, 147, 115588, (2023).

 

39. Xiao-Long Lü, Hang Xie, Jia-En Yang, Ru-Xue Li, Long Du, Hua-Jin Chen, and Hui-sheng Zhang, "Manipulating topological intravalley and intervalley scatterings of inner edge states in hybrid nanoribbons", New Journal of Physics, 25, 023016, (2023).

 

38. Jia-En Yang and Hang Xie, "Energy-resolved spin filtering effect and thermoelectric effect in topological-insulator junctions with anisotropic chiral edge states", Frontiers of Physics, 17(6), 63504 (2022).

 

37. Xiao-Long Lü and Hang Xie, "Thermal currents obtained and mutually switched by a modified Haldane model in graphene", Communications of Theoretical Physics, 74, 035702, (2022).

 

36. Yun-Lei Sun, Hang Xie, Jia-En Yang, Xiao-Qian Hu, and En-Jia Ye, "All-Optically Controlled Topological Current Switcher Based on Silicene-Like Nanoribbons", IEEE Transactions on Electron Devices, 69, 6871, (2022).

 

35. Xiao-Long Lü and Hang Xie, "Topological Edge States and Transport Properties in Zigzag Stanene Nanoribbons with Magnetism", New Journal of Physics, 24, 033010, (2022),

34. Wei-Jie Wang, Xiao-Long Lü, and Hang Xie, "Floquet bands and photon-induced topological edge states of graphene nanoribbons", Chinese Physics B 30, 066701, (2021).

33. Xiao Cheng, Hui Zhao and Hang Xie,"Non-equilibrium charge transport in a conjugated polymer", Journal of Physics: Condensed Matter 33, 135502, (2021)

 

32. Xiao-Long Lü  and  Hang Xie, "Bipolar and unipolar valley filter effects in graphene-based P/N junction", New Journal of Physics, 22, 053034, 073003, (2020).

 

31. Jia-En Yang, Xiao-Long Lü, Chun-Xia Zhang and  Hang Xie, "Topological spin–valley filtering effects based on hybrid silicene-like nanoribbons", New Journal of  Physics, 22, 053034, (2020).

 

30. Jia-En Yang, Xiao-Long Lü and Hang Xie, "Three-terminal spin/charge current router", Journal of Physics: Condensed Matters，32,325301, (2020) .

 

29. Zhang, Chunxia, Xiaolong Lü, and Hang Xie. "Spin and spin-valley filter analysis of inner-edge states in hybrid silicene-like nanoribbons." Journal of Physics D, 53, 195302, (2020).

 

28.  Hang Xie, Xiao Cheng and Xiao-Long Lü, “Steady and dynamic magnetic phase transitions in the open interacting quantum dots arrays”，Journal of Magnetism and Magnetic Materials，497, 165867, (2020).

 

27.  Jia-En Yang , Haijun Huang, Jiangen Zheng , Yingzhou Huang, Hang Xie  and  Fang Gao, “Effect of head group of surfactant on the self-assembly structures and aggregation transitions in a mixture of cationic surfactant and anionic surfactant-like ionic liquid”, Journal of Molecular Liquids, 308,112995 (2020).

 

26. Xiao-Long Lü and Hang Xie, “Spin Filters and Switchers in Topological-Insulator Junctions”, Phys. Rev. Applied, 12, 064040 (2019).

 

25. JiaenYang, Haijun Huang, LinZhu, HangXie and FangGao, "Effect of β-cyclodextrin, alcohol and temperature on the aggregation transitions of cationic/cationic surfactant systems", Colloids and Surfaces A, 582, 123855, (2019).

 

24. Xiaolong Lü and Hang Xie. "Topological phases and pumps in the Su-Schrieffer-Heeger model periodically modulated in time." Journal of Physics: Condensed Matter, 31, 495401, (2019).

 

23. Xiaolong Lü, Chunxia Zhang, Weijie Wang, Xiao Cheng, and Hang Xie, “Excitation and phase transitions of spin density waves in graphene nanoribbons”. Journal of Physics: Condensed Matter, 31, 455501, (2019).

 

22. Rulin Wang, Wencai Lu, Hang Xie, Xiao Zheng, and Chiyung Yam. “Theoretical investigation of real-time charge dynamics in open systems coupled to bulk materials”,  Journal of Chemical Physics,  150: 174119, (2019).

 

21. Xiaolong Lü, Yang Xie, Hang Xie. “Topological and magnetic phase transition in silicene-like zigzag nanoribbons”，New Journal of Physics，20，043054，(2018).

　

20. Hang Xie, Yu Zhang, Yanho Kwok, Wei E.I. Sha. "Charge separation and dissipation in molecular wires under a light radiation", Organic Electronics, 58, 94, (2018).

　

19. Hang Xie, JingHua Gao, and DeZhuan Han. "Excited spin density waves in zigzag graphene nanoribbons." New Journal of Physics 20, 013035, (2018).

 

18. Hang Xie, Yang Jiao, Qihui Fan, et al. “Modeling three-dimensional invasive solid tumor growth in heterogeneous microenvironment under chemotherapy”. Plos One, 2018, 13(10): e0206292.

 

17. Yang Xie, ZhiJian Hu, WenHao Ding, XiaoLong Lü, and Hang Xie, "One-dimensional method of investigating the localized states in armchair graphene-like nanoribbons with defects", Chinese Physics B, 26, No. 12, 127310, (2017).

　

16. Hang Xie,  Feng Jiang, Wei E.I. Sha, "Numerical methods for spin-dependent transport calculations and spin bound states analysis in Rashba waveguides", Computer Physics Communications, 198, 118, (2016).

　

15. Rulin Wang, Xiao Zheng, Yanho Kwok, Hang Xie, et al. “Time-dependent density functional theory for open systems with a positivity-preserving decomposition scheme for environment spectral functions”. The Journal of chemical physics, 2015, 142(14): 144112.

 

14. Stanislav Markov, Balint Aradi, Chiyung Yam, Hang Xie, Thomas Frauenheim, Guanhua Chen, “Atomic level modeling of extremely thin silicon-on-insulator MOSFETs including the silicon dioxide: Electronic structure”. IEEE Transactions on Electron Devices, 62, 696, (2015).

 

13.Feng Jiang, Changguang Shi, Yonghong Yan, Hang Xie, Yijing Yan, “The inelastic spin Seebeck effects in a controllable Aharonov–Bohm interferometer based on a molecular quantum dot”,  Physics Letters A, 379, 435-442, (2015).

 

12.Feng Jiang, Hang Xie, Yonghong Yan. “Spin-dependent thermoelectric effect in polaronic Kondo transport through a Rashba quantum dot coupled with ferromagnetic leads”. Physics Letters A, 378: 1854, (2014).

 

11. Hang Xie, Y. H. Kwok, F. Jiang, X. Zheng, G.H. Chen， “Complex absorbing potential based Lorentzian fitting scheme and time dependent quantum transport", Journal of Chemical Physics, 141, 164122, (2014).

　

10. YanHo Kwok, Hang Xie, ChiYung Yam, Xiao Zheng, and GuanHua Chen, “Time-dependent density functional theory quantum transport simulation in non-orthogonal basis”, Journal of Chemical Physics, 139, 224111，(2013).

　

9. Hang Xie, Yanho Kwok, Yu Zhang, Feng. Jiang, Xiao Zheng, YiJing Yan and GuanHua Chen,  “Time-dependent quantum transport theory and its applications to graphene nanoribbons”, Physica Status Solidi B, 250: 2481–2494,  (2013).

　

8. Shuguang Chen, Hang Xie, Yu Zhang, Xiaodong Cui and Guanhua Chen, “Quantum transport through an array of quantum dots”, Nanoscale, 5, 169, (2013).

　

7. Hang Xie, Feng Jiang, Heng Tian, Xiao Zheng, Yanho Kwok, Shuguang Chen, ChiYung Yam, YiJing Yan, and Guanhua Chen.  “Time-dependent quantum transport: An efficient method based on Liouville-von-Neumann equation for single-electron density matrix”, Journal of Chemical Physics, 137, 044113, (2012).

　

6. Zhe Wang, Wu Shi, Hang Xie, et al. “Superconducting resistive transition in coupled arrays of 4 Å carbon nanotubes”, Physical Review B,  81, 174530, (2010).

 

5. Zhe Wang, Wu Shi, Hang Xie, Ting Zhang, et al. “1D goes 2D: A Berezinskii–Kosterlitz–Thouless transition in superconducting arrays of 4 Angstrom carbon nanotubes”, Physica Status Solidi B, 247: 2968–2973, (2010).

　

4. Hang   Xie   and   Ping   Sheng,  "Quantum interference Hall effect in nanopatterned two-dimensional electron gas systems", Physical Review B 79, 165307, (2009).  

　

3. Hang   Xie   and   Ping   Sheng,    "Fluctuation-induced tunneling   conduction  through nanoconstrictions",  Physical Review B 79, 165419, (2009).

　

2. Bo Hou, Hang Xie, Weijia Wen, and Ping Sheng, "Three-dimensional  metallic fractals and their photonic crystal characteristics", Physical Review B 77, 125113, (2008).

　

1. Hang Xie, Liying Liu, Wencheng Wang, Lei Xu, "Solubilization-induced surface structural changes of sol particles observed by hyper Rayleigh scattering", Chemical Physics Letters 403,175, (2005).