2025年:

51. J. Liu, B. Liu, Q. Lu, M. Zhao, X. Zha, W. Wang, G. Dong, Y. Zhao, Z. G. Wang*, Z. X. Guo*, M. Liu*, Giant enhancement of spin transport in transition metal dichalcogenides/ferromagnet heterostructures via 3d metal intercalation-driven interface orbital hybridization, Applied Surface Science 720, 165348 (2026).

50. Y. Zhao*, P. Li, J. Zou, Z. Ye, X. Zhu, S. Zhao, G. Dong, B. Peng, Q. Li, Z. X. Guo*, M. Liu*, Oxygen-intercalated Ruddlesden–Popper nickelate: giant resistive switching and emergent multi-electronic phase control, Materials Horizons 2025.

49. H. L. Ning, X. Zhang*, J. S. Huang, B. Liu, M. Q. Dong, Z. X. Guo*, Y. Dong*, Efficient Spin Transfer in WTe2/Fe3GeTe2 van der Waals Heterostructure Enabled by Direct Interlayer p-Orbital Hybridization,  Physical Review B 112, 165426 (2025).

48. H. F. Feng, B. Liu, X. G. Gong*,  Z. X. Guo*, Exceptional four-phonon scattering effects on low-temperature thermal conductivity in two-dimensional materials,  Physical Review B 112, 134306 (2025).

47. M. Q. Dong, Z. X. Guo*, X. G. Gong*, Field-free perpendicular magnetization switching by altermagnet with collinear spin current,  Physical Review B 112, 094447 (2025).

46. B. Liu, X. Zhang*, W. Hou, H. Feng, Zhengei Dai*, Z. X. Guo*， High-Performance Nonvolatile Spin FETs from 2D Metallic Ferromagnetic and Ferroelectric Multiferroic Heterostructure, Applied  Physics Letters 126, 243503  (2025).

45. M. Q. Dong, Z. X. Song, Z. X. Guo*, High-order AMR in two-dimensional magnetic monolayers from spin mixing, Physical Review B 111, 174447 (2025).

44. Y. Zhao,* Y. Yao, P. Li, Z. Ye, M. Yang, Z. Zhou, G. Yang, L. Han, Z. Wang, Y. Zhou, J. Li, H. Liu, G. Dong, B. Peng, Q. Li, Z. X. Guo*,  M. Liu*, Observation of Large Low-Field Magnetoresistance in Layered (NdNiO3)n:NdO Films at High Temperatures, Advanced Materials  37, 2415426 (2025).

43. C. Yao, Chen Kong, H. F. Feng, Y Dong*, L. Huang, X. Zhang, Z. X. Song*, Z. X. Guo*, Exotic thermoelectric properties of coronene-cyclobutadienoid graphene nanoribbons,  Journal of Physical Chemistry C 129, 52 (2025).

42. B. Liu, J. S. Feng, H. J. Xiang*, Z. Dai*, Z. X. Guo*, Efficient Electric Field Control of Magnetic Phase in Bilayer Magnets via interlayer hopping modulation, Physical Review B (Letter) 111, L140401 (2025).

2024年:

41. H. F. Feng, B. Liu, J. L. Bai, X. Zhang, Z. X. Song, Z. X. Guo*, Nontrivial impact of interlayer coupling on thermal conductivity: opposing trends in in-plane and out-of-plane phonons, Physical Review B 110, 214304 (2024).

40. Ping Li, Xueyang Li, Junsheng Feng, Jinyang Ni, Z. X. Guo*, Hongjun Xiang*，Origin of zigzag antiferromagnetic orders in XPS3 (X= Fe, Ni) monolayers,  Physical Review B 109, 214418 (2024)

39. W. S. Hou, M. Q Dong, X. Zhang*, Z. X. Guo*, Giant Anisotropic Magnetoresistance in Magnetic Monolayers CrPX3 (X= S, Se, Te) due to symmetry breaking between the in-plane and out-of-plane crystallographic axes,  Physical Review B 110, 214403 (2024).

38. X. Zhang, B. Liu, J. Huang, X. Cao, Y. Zhang, Z. X. Guo*, Nonvolatile spin field effect transistor based on VSi2N4/Sc2CO2 multiferroic heterostructure Physical Review B 109, 205105 (2024).

37. Saichao Yan, Kang Wang, Z. X. Guo*, Yu-Ning Wu*, and Shiyou Chen*, SiX2 (X = S, Se) Nanowire Gate-All-Around MOSFETs for Sub-5 nm Applications, Nano Letters  24, 6158 (2024).

36. S. Yan, K. Wang, Z. X. Guo*, Y. N. Wu*, S. Y. Chen*, Tunneling field-effect transistors with two-dimensional BiN as the channel semiconductor, Applied  Physics Letters 124, 143502 (2024).

35. H. Guo, X. Zhang*, S.  Chen, L. Huang*, Y. Dong, Z. X. Guo*, High-Performance and Low-Power Sub-5 nm Field-Effect Transistors Based on 7-9-7-AGNR, Journal of Materials Chemistry C 12, 3280 (2024).

34. P. Li*, B. Liu, S. Chen, W. X. Zhang, Z. X. Guo*, Progress on two-dimensional ferrovalley materials, Chinese Physics B 33, 017505 (2024).

2023年:

33. H. F. Feng, B Liu, Z. X. Guo*, Giant twist-angle dependence of thermal conductivity in bilayer graphene originating from strong interlayer coupling,  Physical Review B (Letter) 108, L241405 (2023).

32. M. Q. Dong, Z. X. Guo*, X. R. Wang*, Anisotropic magnetoresistance due to magnetization-dependent spin-orbit interactions, Physical Review B (Letter) 108, L020401 (2023).

31. S. G. Wang, H. F. Feng, Z. X. Guo*, Stacking and Thickness Effects on Cross-Plane Thermal Conductivity of Hexagonal Boron Nitride, Computational Materials Science 228,112345 (2023).

30. B. Liu, X. X. Ren, Xian Zhang*, Y. Dong*, Ping Li, Z. X. Guo*, Electric field tunable multi-state tunnel magnetoresistances in 2D van der Waals magnetic heterojunctions, Applied  Physics Letters 122, 152408 (2023).

29. P. Li, J.-Z. Zhang, Z. X. Guo*, T. Min, X. R. Wang*, Intrinsic anomalous spin Hall effect, Science China Physics, Mechanics & Astronomy 66, 227511 (2023) .

2022年:

28. H. Wu, Y. L. Zhang, Z. X. Guo*, and X. G. Gong*, Anomalous high thermal conductivity in heavy element compounds with van der Waals interaction, Applied  Physics Letters 121, 182204 (2022).

27. K. Wang, Y. Li, H. Mei, P. Li*, and Z. X. Guo*，Quantum anomalous Hall and valley quantum anomalous Hall effects in two-dimensional d0 orbital XY monolayers, Physical Review Materials  6, 044202 (2022).

26. Q. Lu, P. Li, Z. X. Guo*, G. Dong*, B. Peng, X. Zha, T. Min, Z. Zhou, M. Liu*, Giant tunable spin Hall angle in sputtered Bi2Se3 controlled by an electric field, Nature Communications 13, 1650 (2022).

25. P. Li, X. S. Zhou, Z. X. Guo*, Intriguing Magnetoelectric Effect in Two-dimensional Ferromagnetic/Perovskite Oxide Ferroelectric Heterostructure,  npj Computational Materials 8, 20 (2022).

24. X. X. Ren, J. S. Huang, P. Li, Y. Zhang, Z. X. Guo*, Exotic Spintronic Properties of Transition-Metal Monolayers on Graphyne, Advanced Theory and Simulations 5, 2100287 (2022).

2021年:

23. J. S. Huang, P. Li, X. X. Ren, Z. X. Guo*, Promising Properties of a Sub-5-nm Monolayer MoSi2N4 Transistor, Physical Review Applied 16, 044022 (2021).

22.  P. Li*,  Z. X. Guo*, The Dirac half-semimetal and quantum anomalous Hall effect in two-dimensional Janus Mn2X3Y3 (X, Y= F, Cl, Br, I), Physical Chemistry Chemical Physics 23, 19673 (2021).

21. P. Li, Y. Ma, Y Zhang, Z. X. Guo*, Room Temperature Quantum Anomalous Hall Insulator in a Honeycomb–Kagome Lattice, Ta2O3, with Huge Magnetic Anisotropy Energy,  ACS Applied Electronic Materials 3, 1826 (2021).

2006-2020年:

20. K. Wang, Y. Zhang, W. Zhao, P. Li, J. W. Ding, G. F. Xie, and Z. X. Guo*，Topological Dirac states in transition-metal monolayers on graphyne, Physical Chemistry Chemical Physics 21, 9310-9316 (2019).

19. S. Li, Z. X. Guo*, J. W. Ding*, Interface thermal transport of graphene-based intralayer heterostructures, Physica B: Condensed Matter 561, 164-169 (2019).

18. Y. Zhou, Z. X. Guo*, S. Y. Chen, H. J. Xiang, and X. G. Gong*, Anisotropic in-plane thermal conductivity in multilayer silicene, Physics Letters A 382, 1499-1503 (2018).

17. P. Li, X. Li, W. Zhao, H. Chen, M. X. Chen, Z. X. Guo*, J. Feng, X. G. Gong, A. McDonald, Topological Dirac States beyond π-Orbitals for Silicene on SiC(0001) Surface, Nano Letters 17, 6195 (2017).

16. P. Li, J. X. Cao, and Z. X. Guo*, A new approach for fabricating germanene with Dirac electrons preserved: a first principles study, Journal of Materials Chemistry C 4, 1736 (2016).

15. C. Y. Chen, Y. She, H. Xiao*, J. X. Cao, and Z. X. Guo*, Enhancing the ballistic thermal transport of silicene through smooth interface coupling, Journal of Physics. Condensed matter 28, 145003 (2016).

14. Z. X. Guo*, Y. Y. Zhang, H. J. Xiang, X. G. Gong, and A. Oshiyama, Structural evolution and optoelectronic applications of multilayer silicene, Physical Review B (Raid Communications) 92, 201413 (2015).

13. Z. X. Guo and A. Oshiyama*, Crossover between silicene and ultra-thin Si atomic layers on Ag (111) surfaces,New Journal of Physics 17, 045028 (2015)

12. X. Zhang, Z. X. Guo*, J. X. Cao, S. G. Xiao, and J. W. Ding, Atomic and electronic structures of silicene and germanene on GaAs(111), Acta Physica Sinica 64, 186101 (2015).

11. Z. X. Guo and A. Oshiyama, Structural bistability and deep Dirac states in bilayer silicene on Ag(111) surfaces, Physical Review B 89, 155418 (2014).

10. Z. X. Guo, S. Furuya, J.-I. Iwata, and A. Oshiyama, Absence and presence of Dirac electrons in silicene on substrates, Physical Review B 87, 235435 (2013) (ESI 高引论文).

9. Z. X. Guo, S. Furuya, J.-I. Iwata, and A. Oshiyama, Absence of Dirac electrons in silicene on Ag(111) surfaces, Journal of the Physical Society of Japan 82, 063714 (2013) (Editor’s Choice).

8. Z. X. Guo*, J. W. Ding, and X. G. Gong, Substrate effects on the thermal conductivity of epitaxial graphene nanoribbons, Physical Review B 85, 235429 (2012).

7. Z. X. Guo, D. Zhang, and X. G. Gong*, Manipulating thermal conductivity through substrate coupling, Physical Review B 84, 075470 (2011).

6. Z. X. Guo, D. Zhang, Y. T. Zhai, and X. G. Gong*, The intriguing thermal conductivity of ice Nanotubes, Nanotechnology 21, 285706 (2010).

5. Z. X. Guo, D. Zhang, and X. G. Gong*, Thermal conductivity of graphene nanoribbons, Applied Physics Letters 95, 163103 (2009) (ESI 高引论文).

4. Z. X. Guo, and X. G. Gong, Molecular dynamics studies on the thermal conductivity of single-walled carbon nanotubes，Frontiers of Physics in China 4, 389 (2009).

3. Z. X. Guo, J. W. Ding*, Y. Xiao, and D. Y. Xing, Raman frequency shift in oxygen-functionalized carbon nanotubes, Nanotechnology 18, 465706 (2007).

2. Z. X. Guo, Y. Xiao, J, W. Ding*, and X. H. Yan, Lattice dynamics of single-walled achiral BC₃ nanotubes, Physical Review B 73, 045405 (2006).

1. Z. X. Guo, J. W. Ding*, Y Xiao, Y. L. Mao，Lattice dynamics of carbon chain inside a carbon nanotube, Journal of Physical Chemistry B 110, 21803 (2006).

完整的文章发表信息请参见：https://scholar.google.com/citations?user=WM5a0twAAAAJ&hl=zh-CN

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