电子输运课题组近年文章
The Papers in Electron Transport
Google Scholar Page
2020;
[1] Jian-Hua Li, Yan-Dong Guo*, Hong-Li Zeng, Jing-Jing He, Yang Ni, Qiao-An Li, Xiao-Hong Yan*.
The spin-dependent transport properties of endohedral transition-metal-fullerene X@C66H4(X=Fe, Co, Mn, Ni). Physics Letters A, 2020, 126215.
2020-PLA-LJH.pdf
2019;
[1] Jin-Tao Liang, Xiao-Hong Yan*, Ying Zhang, Yan-Dong Guo, Yang Xiao*. Noncollinear magnetism in Lithium-doped zigzag graphene nanoribbons. Journal of Magnetism and Magnetic Materials, 2019, 480, 101-107.pdfDownload.pdf
[2] Yang Ni, Yan-Dong Guo*, Xiao-Hong Yan*, Hong-Li Zeng, Ying Zhang, Xin-Yu Chen, Xue-Yang Shen. A metal-semiconductor transition triggered by atomically flat zigzag edge in monolayer transition-metal dichalcogenides. Physics Letters A, 2019.pdfDownload.pdf
2018;
[1] Yan-Dong Guo, Hong-Bo Zhang, Hong-Li Zeng*. A progressive metal-semiconductor transition in two-faced Janus monolayer transition-metal chalcogenides. Physical Chemistry Chemical Physics, 2018, 20(32), 21113-21118.pdfDownload.pdf
[2] Yan-Dong Guo*, Hui-Feng Liu, Hong-Li Zeng. Edge defect switched dual spin filter in zigzag hexagonal boron nitride nanoribbons. Physical Chemistry Chemical Physics, 2018, 20(14), 9241-9247.pdfDownload.pdf
[3] Jing-Jing He, Yan-Dong Guo*, Xiao-Hong Yan. Edge modification induced giant rectification effect in armchair C2N-h2D nanoribbons. Solid State Communications, 2018, 289, 61-66.pdfDownload.pdf
[4] Jian-Hua Li, Yan-Dong Guo*, Xiao-Hong Yan. Geometric symmetry modulated spin polarization of electron transport in graphene-like zigzag FeB2 nanoribbons. European Physical Journal B, 2018, 91(7).pdfDownload.pdf
[5] Jing-Jing He, Yan-Dong Guo, Xiao-Hong Yan. Edge morphology induced rectifier diode effect in C3N nanoribbon. Physical Chemistry Chemical Physics, 2018, 20(45), 28759-28766.pdfDownload.pdf
[6] Jing-Jing He, Yan-Dong Guo*, Xiao-Hong Yan. Electronic, magnetic and transport properties of transition metal-doped holely C2N-h2D nanoribbons. Physica B: Condensed Matter, 2018, 528, 1-8.pdfDownload.pdf
2017:
[1] Y Zhang, Xiao-Hong Yan, Yan-Dong Guo. Magnetic order and noncollinear spin transport of domain walls based on zigzag graphene nanoribbons. Journal of Applied Physics, 2017, 121(17), 174303.pdfDownload.pdf
[2] Ying Zhang, Xiao-Hong Yan, Yan-Dong Guo. Magnetization distribution and spin transport of graphene/h-BN/graphene nanoribbon-based magnetic tunnel junction. Physics Letters A, 2017, 381(35), 2949-2958.pdfDownload.pdf
[3] Ying Zhang, Xiao-Hong Yan, Yan-Dong Guo. Negative tunneling magnetoresistance of Fe/MgO/NiO/Fe magnetic tunnel junction: Role of spin mixing and interface state. Applied Physics Letters, 2017, 111(7), 072405.pdfDownload.pdf
[4] Jing-Jing He, Yan-Dong Guo*, Xiao-Hong Yan. Negative differential resistance and bias-modulated metal-to-insulator transition in zigzag C2N-h2D nanoribbon, 2017, 7, 43922.pdfDownload.pdf
[5] Ying Zhang, Xiao-Hong Yan, Yan-Dong Guo, Yang Xiao*. EFFECT OF TRANSITION METAL DOPING ON MAGNETIZATION AND SPIN TRANSPORT OF DOMAIN WALL MADE BY NICKEL ATOMIC CHAIN. Applied Physics Letters, 2017,25(07), 1950012.pdfDownload.pdf
[6] Li-Zhi Hu, Yan-Dong Guo*, Xiao-Hong Yan. Electronic transport properties in [n] cycloparaphenylenes molecular devices. Physics Letters A, 2017, 381(25-26), 2107-2111.pdfDownload.pdf
[7] Hong-Li Zeng, Yan-Dong Guo, Xiao-Hong. Yan. Hydrogenated carbon nanotube-based spin caloritronics. Physical Chemistry Chemical Physics, 2017, 19(32), 21507-21513.pdfDownload.pdf
2016:
[1] Jing-Jing He, Xiao-Hong Yan, Yan-Dong Guo.The electron transport properties of zigzag graphene nanoribbons with upright standing linear carbon chains. Solid State Communications, 2016, 227, 28-32.pdfDownload.pdf
[2] Lan Meng, Yu-Han Zhang, Song Hu, XiangFu Wang, Chun-Sheng Liu, Yan-Dong Guo. Two dimensional WS2 lateral heterojunctions by strain modulation. Applied Physics Letters, 2016, 108(26), 263104.pdfDownload.pdf
[3] J-R Yuan, Xiao-Hong Yan, Yang Xiao, Yan-Dong Guo. Noncollinear magnetic order induced by Dzyaloshinskii-Moriya interaction in oxygen-assisted Pt nanojunctions. Nanotechnology, 2016, 27(47), 475202.pdfDownload.pdf
[4] Wei Wang, Yan-Dong Guo*, Xiao-Hong Yan. The spin-dependent transport of transition metal encapsulated B40 fullerene. RSC Advances, 2016, 6(46), 40155-40161.pdfDownload.pdf
2015:
[1] Yan-Dong Guo,Xiao-Hong Yan, Yang Xiao.U-shaped relationship between current and pitch in helicene molecules. Scientific Reports, 2015, 5, 16731.pdfDownload.pdf
[2] Hong-Li Zeng, Chen-Ping Zhu, Yan-Dong Guo. Power-law spectrum and small-world structure emerge from coupled evolution of neuronal activity and synaptic dynamics. Journal of Physics Conference Series, 604, 012023.pdfDownload.pdf
[3] Chang-Jie Dai, Xiao-Hong Yan, Yang Xiao, Yan-Dong Guo. Electronic and transport properties of noncollinear magnetic monatomic Mn chains: Fano resonances in the superlattice of noncollinear magnetic barriers and magnetic anisotropic bands. Journal of Magnetism and Magnetic Materials, 2015, 379, 167-178.pdfDownload.pdf
2014:
[1] Yan-Dong Guo, Xiao-Hong Yan*, Yang Xiao. The spin-dependent transport of Co-encapsulated Si nanotubes contacted with Cu electrodes. Applied Physics Letters, 2014, 104 (6), 063103.pdfDownload.pdf
[2] Yan-Dong Guo, Xiao-Hong Yan, Yang Xiao. Electrical control of spin polarization of conductance in Mn-encapsulated Si nanotube. Applied Physics Express, 2014, 7(7), 075001.pdfDownload.pdf
[3] Chang-Jie Dai, Xiao-Hong Yan, Yang Xiao, Yan-Dong Guo. Electronic and transport properties of T-graphene nanoribbon: Symmetry-dependent multiple Dirac points, negative differential resistance and linear current-bias characteristics. Europhysics Letters, 2014, 107(3), 37004.pdfDownload.pdf
[4] Yan-Dong Guo, Xiao-Hong Yan, Yang Xiao. The spin-dependent transport of Co-encapsulated Si nanotubes contacted with Cu electrodes. Applied Physics Letters, 2014, 104(6), 063103.pdfDownload.pdf
[5] Yan-Dong Guo*, Hong-Li Zeng, Li-Zhi Hu. Multiple spin-resolved negative differential resistance and electrically controlled spin-polarization in transition metal-doped [6]cycloparaphenylenes. Physics Letters A, 2014, 382(38), 2763-2768.pdfDownload.pdf
2013:
[1] Yan-Dong Guo*, Xiao-Hong Yan, Yang Xiao. Electrical control of the spin polarization of a current in “pure-carbon” systems based on partially hydrogenated graphene nanoribbon. Journal of Applied Physics, 2013, 113(24), 244302.pdfDownload.pdf
[2] Yan-Dong Guo, Xiao-Hong Yan, Yang Xiao. Conformational change-induced switching behavior in pure-carbon systems. RSC Advances, 2013, 3(37), 16672-16680.pdfDownload.pdf
2012:
[1] Yan-Dong Guo, Xiao-Hong Yan, Yang Xiao. Computational Investigation of DNA Detection Using Single-Electron Transistor-Based Nanopore. Journal of Physical Chemistry C, 2012, 116(40), 21609-21614.pdfDownload.pdf
[2] Xing Huang, Xiao-Hong Yan, Yang Xiao, Yan-Dong Guo. Strain-induced phase transition in β-MnO2. Europhysics Letters, 2012, 99(2), 27005.pdfDownload.pdf
2011:
[1] Yan-Dong Guo, Xiao-Hong Yan, Yang Xiao. Multiple negative differential resistance and the modulation in a nanotubelike fullerene D5h„1…-C90. Applied Physics Letters, Applied Physics Letters, 2011, 98(16), 163107.pdfDownload.pdf
[2] K-L Ma, Xiao-Hong Yan, Yan-Dong Guo. Electronic transport properties of junctions between carbon nanotubes and graphene nanoribbons. European Physical Journal B, 2011, 83(4), 487-492.pdfDownload.pdf
[3] Xing Huang, Xiao-Hong Yan, Zhi-Hai Zhu, Yu-Rong Yang, Yan-Dong Guo. CrO2 thin films epitaxially grown on TiO2 (001): Electronic structure and magnetic properties. Journal of Applied Physics, 2011, 109(6), 064319.pdfDownload.pdf
2010:
[1] Chang-Jie Dai, Xiao-Hong Yan, Yan-DongGuo. Effect of an out-of-plane cross connection on the electronic transport of zigzag graphene nanoribbon. Physics Letters A, 376(26-27), 2010-2014.pdfDownload.pdf
[2] Yan-Dong Guo, Xiao-Hong Yan, Yang Xiao. Spin-polarized current generated by carbon chain and finite nanotube. Journal of Applied Physics, 2010, 108(10), 104309.pdfDownload.pdf
