Guichao Hu


Curriculum Vitae – Prof. Dr. Guichao Hu


Date of Birth: 12 June, 1980

Nationality: Chinese


Present address

School of Physics and Electronics, Shandong Normal University, Jinan 250358, P. R. China

Email: hgc@sdnu.edu.cn, 44003944@qq.com,

Personal website

https://www.scholarmate.com/P/VJzURf

Education

l Shandong University, China, Ph. D student in Theoretical Condensed Matter Physics, Sep. 2003- Jun.2008

l Shandong University, B.Sc. student in Physics, Sep. 1999-Jun. 2003


Working Experience

l School of Physics and Electronics, Shandong Normal University, Jinan 250358, P. R. China, Professor, Sep. 2008-Present

l Institute of Theoretical Physics, Technical University Dresden, Germany, Dresden Junior Fellow, May 2016-Mar. 2017

l Department of Physics and Astronomy, University of Missouri, USA, Visiting Scholar, Feb. 2014- Nov. 2016

l Institute of Theoretical Physics, Technical University Dresden, Germany, Visiting Scholar, Feb. 2012-Jul. 2012


Award and Honors

l Excellent supervisor for Master’s thesis of Shandong Normal University (2022)

l Excellent supervisor for Bachelor’s thesis of Shandong Normal University (2019-2022)

l Excellent supervisor for Master’s thesis of Shandong Province (2020)

l Award for Science and Technology of university in Shandong Province (2020)

l Award for Science and Technology of university in Shandong Province (2019)

l Excellent supervisor for Master’s thesis of Shandong Normal University (2017)

l DRESDEN Junior Fellowship (2016)

l Award for outstanding achievements in scientific research of Shandong Province (2015)

l Excellent Teacher Study Abroad Program of Shandong Province Government (2014)

l Excellent Young Scholars Research fund of Shandong Normal University (2013)

l Outstanding Teacher International Cooperation Program of Shandong Province (2012)

l Award for outstanding achievements in scientific research of Shandong Province (2009)


Research fields

Organic spintronics; Molecular spintronics; Quantum transport; Organic magnets; Condensed Matter Theory


International conferences and talks

l Oscillating Spin Hall Effect in Organic Chains via Polaron Transport” (Poster), August 13, 2018, Halle, Germany

l Spin-dependent transport and functional design in organic ferromagnetic devices”(Oral), February 10, 2017, Technischen Universität Darmstadt, Darmstadt, Germany

l Multi-state magnetoresistance in ferromagnet/organic-ferromagnet/ferromagnet junctions”(Poster), APS March Meeting 2016, May 14-18, 2016, Baltimore, Maryland, US

l Design of organic spintronic devices with organic ferromagn” (Oral), June 30, 2016, Technischen Universität Dresden, Dresden, Germany

l Spin-dependent transport in organic-ferromagnet devices” (Oral), December 10, 2014, University of Missouri-Columbia, Columbia, US

l Spin-dependent transport in organic-ferromagnet devices” (Oral, invited), “Towards Molecular Spintronics”, June 22-23, 2012, Burgstädt, Germany.

l The 20th ICSM, July 4-9, 2010, Kyoto, Japan.

l Spin-current rectification in magnetic/nonmagnetic co-oligomers” (Poster), Asian Magnetic Conference 2008, December 10-13, 2008, Busan, Korea.

l SpinOS 2007, September 9-11, 2007, Bologna, Italy


Selected papers published in refereed international journals

1. Y. Y. Miao, D. W. Yu, D. Li, H. Q. Zhang, J. F. Ren, and G. C. Hu*, “Acceleration of polaron induced by site effective mass increment in organic ferromagnets”, New J. Phys. 24, 083044 (2022).

2. L. M. Zhang, Y. Y. Miao, Z. P. Cao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu*, “Bias-induced reconstruction of hybrid interface statesin magnetic molecular junctions”, Chin. Phys. B 31, 057303 (2022).

3. H. Q. Zhang, D. Li, Y. Y. Miao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu*, “Molecular rectification assisted by spin-polarized hybrid interfacial states”, Phys. Lett. A 443, 128200 (2022).

4. Y. Y. Miao, L. Y. Chen, G. P. Zhang, C. K. Wang, J. F. Ren, C. Timm, and G. C. Hu*, “Mechanism of length-induced magnetism in polyacene molecules”, Phys. Rev. B 105, 094419 (2022).

5. Y. Y. Miao, H. J. Kan, D. Li, C. K. Wang, J. F. Ren, and G. C. Hu*, “Spin precession of polarons in organic ferromagnets”, Phys. Lett. A 433, 128024 (2022).

6. R. J. Sun, J. J. Lu, X. W. Zhao, G. C. Hu, X. B. Yuan, and J. F. Ren, “Robust valley polarization induced by super-exchange effects in HfNX (X=Cl, Br, I)/FeCl2 two-dimensional ferrovalley heterostructures”, Appl. Phys. Lett. 120, 063103 (2022).

7. R. J. Sun, R. Liu, J. J. Lu, X. W. Zhao, G. C. Hu, X. B. Yuan, and J. F. Ren, “Reversible switching of anomalous valley Hall effect in ferrovalley Janus 1T-CrOX (X = F, Cl, Br, I) and the multiferroic heterostructure CrOX/In2Se3”, Phys. Rev. B 105, 235416 (2022).

8. X. B. Yuan, Y. H. Guo, J. L. Wang, G. C. Hu, J. F. Ren, and X. W. Zhao, “Type-II Band Alignment and Tunable Optical Absorption in MoSSe/InS van der Waals Heterostructure”, Front. Chem. 10, 861838 (2022).

9. H. Wang,* H. Y. Shi, X. J. Yuan, J. F. Zhao, H. X. Bu, and G. C. Hu,* “Spin-dependent polaron dynamics in organic ferromagnets”, J. Phys. Chem. Lett. 13, 614 (2022).

10. D. Li, H. Q. Zhang, Y. Y. Miao, J. F. Ren, C. K. Wang, and G. C. Hu,* “Length dependence of magnetoresistance in organic spin valves”, J. Appl. Phys. 131, 055501 (2022).

11. Z. P. Cao, Y. Y. Miao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, G. C. Hu,* and L. N. Zhao,* “Site-dependent spin-polarized tunneling via hybrid interface states on molecule/ferromagnet surface”, Phys. E 138, 115071 (2022).

12. J. T. Guo, Z. T. Lu, K. Y. Wang, X. W. Zhao, G. C. Hu, X. B. Yuan, and J. F. Ren, “Large valley polarization in a novel two-dimensional semiconductor H-ZrX2 (X = Cl, Br, I)”, J. Phys.: Condens. Mat. 34, 075701 (2022).

13. J. L. Wang, X. W. Zhao, G. C. Hu, J. F. Ren,* and X. B. Yuan, “Manipulable Electronic and Optical Properties of Two-Dimensional MoSTe/MoGe2N4 van der Waals Heterostructures”, Nanomaterials, 11, 3338 (2021).

14. Z. Yang, J. Y. Song, J. T. Guo, X. W. Zhao, G. C. Hu, X. B. Yuan, and J. F. Ren, “Electronic structure and enhanced photocatalytic properties in Ca (OH)2/GeC van der Waals heterostructure”, Eur. Phys. J. B 94, 157 (2021).

15. G. P. Zhang,* L. Y. Chen, J. M. Zhao, Y. Z. Sun, N. P. Shi, M. L. Wang, G. C. Hu, and C. K. Wang, “Large Rectification Ratio of up to 106 for Conjugation-Group Terminated Undecanethiolate Single-Molecule Diodes on Pt Electrodes”, J. Phys. Chem. C, 125, 20783 (2021).

16. J. T. Guo, X. W. Zhao, G. C. Hu, J. F. Ren,* and X. B. Yuan, “Observation and manipulation of valley polarization in two-dimensional H-Tl2O/CrI3 heterostructure”, Appl. Surf. Sci. 558, 149604 (2021).

17. Y. H. Guo, J. L. Wang, G. C. Hu, X. B. Yuan,, and J. F. Ren, “ Strain-tunable electronic and optical properties of novel MoSSe/InSe van der Waals heterostructures”, Phys. Lett. A 404, 127395 (2021).

18. S. Qiu, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang,* and G. C. Hu,* “Modulation of hybrid interface states and magnetoresistance in quantum interference systems via functional groups”, J. Magn. Magn. Mater. 537, 168138 (2021).

19. Y. Y. Miao, S. Qiu, G. P. Zhang, C. K. Wang, J. F. Ren,* and G. C. Hu,* “Electric field induced magnetism decline in organic ferromagnets”, Physica E 131, 114729 (2021).

20. J. S. Qi, Y. Y. Miao, Y. J. Cui, S. Qiu, J. M. Zhao, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Length-induced large magnetoresistance in polyacene molecular spin valves”, Results. Phys. 27, 104510 (2021).

21. F. Tang, Z. Q. Wang, S. X. Wang, M. L. Wang, G. C. Hu, C. K. Wang, and G. P. Zhang, “Adsorption-site-dependent magnetic and electronic properties for single-or double-fluorine-atom adsorbed boron nitride nanotubes and their possible applications in spin filters”, Phys. Lett. A 389, 127071 (2021).

22. S. Qiu, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang,* and G. C. Hu,* “Protonation control of spin transport properties in magnetic single-molecule junctions”, J. Mater. Sci. 55, 16311 (2020).

23. Y. Q. Li, H. J. Kan, Y. Y. Miao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Magnetic manipulation of orbital hybridization and magnetoresistance inorganic ferromagnetic co-oligomers”, Physica E 124, 114327 (2020).

24. H. J. Kan, Y. Y. Miao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Weak-field polaron dynamics in organic ferromagnets”, Phys. Chem. Chem. Phys. 22, 15707 (2020).

25. Y. Li, J. J. Liu, X. W. Zhao, X. Z. Yuan, G. C. Hu, X. B. Yuan, and J. F. Ren, “Strain forces tuned the electronic and optical properties in GaTe/MoS2 van der Waals heterostructures”, RSC Adv. 10, 25136 (2020).

26. S. Qiu, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang,* and G. C. Hu,* “Manipulating Current Spin Polarization in Magnetic Single-Molecule Junctions via Destructive Quantum Interference”, J. Phys. Chem. C 124, 12144 (2020).

27. Y. Q. Li, H. J. Kan, Y. Y. Miao, L. Yang, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Tunneling magnetoresistance in ferromagnet/organic-ferromagnet/metal junctions”, Chin. Phys. B 29, 017303 (2020).

28. X. Gao, S. H. Liang, A. Ferri, W. C. Huang, D. Rouxel, X. Devaux, X. G. Li, H. X. Yang, M. Chshiev, R. Desfeux, A. D. Costa, G. C. Hu, M. Stoffel, A. Nachawaty, C. P. Jiang, Z. M. Zeng, J. P. Liu, H. Yang, and Yuan Lu, “Enhancement of ferroelectric performance in PVDF:Fe3O4 nanocomposite based organic multiferroic tunnel junctions”, Appl. Phys. Letts. 116, 152905 (2020).

29. R. D. Liang, X. W. Zhao, G. C. Hu, W. W. Yue, X. B. Yuan, and J. F. Ren, “Electronic Structure and Optical Properties of a Mn-Doped InSe/WSe2 van der Walls Heterostructure: First Principles Calculations”, J. Korean. Phys. Soc. 77, 587 (2020).

30. X. W. Zhao, Z. Yang, J. T. Guo, G. C. Hu, W. W. Yue, X. B. Yuan, and J. F. Ren, “Tuning electronic and optical properties of monolayer PdSe2 by introducing defects: first-principles calculations”, Sci. Rep. 10, 4028 (2020).

31. X. W. Zhao, Y. Li, R. D. Liang, G. C. Hu, X. B. Yuan, and J. F. Ren, “Enhanced valley polarization at valence/conduction band in transitionmetal-doped WTe2 under strain force”, Appl. Surf. Sci. 504, 144367 (2020).

32. Z. Q. Wang, F. Tang, M. L. Wang, G. C. Hu, J. C. Leng, C. K. Wang, and G. P. Zhang, “Modulation of spin thermoelectric properties in transition metal porphyrin single-molecule spin caloritronic devices by Fano resonance”, Physca E 121, 114129 (2020).

33. B. Qiu, X. W. Zhao, Y. Li, R. D. Liang, G. C. Hu, X. B. Yuan, and J. F. Ren, “Effects of lanthanides doping on the optical properties of graphene/WSe2 heterostructure based on ab-initio calculations”, Phys. Lett. A 384, 126663 (2020).

34. B. Qiu, X. W. Zhao, G. C. Hu, W. W. Yue, X. B. Yuan, and J. F. Ren, “Tuning electronic and optical properties of Graphene/WSe2 heterojunction by introducing vacancy: First principles calculations”, Physica E 116, 113729 (2020).

35. Y. Li, B. Qiu, X. W. Zhao, G. C. Hu, W. W. Yue, X. B. Yuan, and J. F. Ren, “Spin polarization properties of two-dimensional MoSeTe induced by transition-metal doping: first-principles calculations”, Eur. Phys. J. B 92, 266 (2019).

36. X. W. Zhao, B. Qiu, G. C. Hu, W. W. Yue, J. F. Ren, and X. B. Yuan, “Transition-metal doping/adsorption induced valley polarization in Janus WSSe: First-principles calculations”, Appl. Surf. Sci. 490, 172-177 (2019).

37. X. W. Zhao, B. Qiu, W. W. Yue, G. C. Hu, J. F. Ren, and X. B. Yuan, “Spontaneous spin polarization of methanol molecule adsorbed on B- or N-doped graphene: first-principles calculations”, Eur. Phys. J. B 92, 44 (2019).

38. M. Z. Wei, X. X. Fu, Z. Q. Wang, G. C. Hu, Z. L. Li, C. K. Wang, and G. P. Zhang, “Bias and molecular-length dependent odd–even effect of rectification in 40-methyl-2,20-bipyridylterminated n-alkanethiolate single-molecule diodes”, J. Mater. Chem. C 7, 9000-9007 (2019).

39. S. Qiu, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang,* and G. C. Hu,* “Modulating hybrid interface states in magnetic molecular junctions by molecular geometrical torsion”, J. Magn. Magn. Mater. 489, 165465 (2019).

40. S. Qiu, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang,* and G. C. Hu,* “Enhancement of magnetoresistance and current spin polarization in single molecule junctions by manipulating the hybrid interface states via anchoring groups”, J. Magn. Magn. Mater. 479, 247-253 (2019).

41. G. M. He, S. Qiu, Y. J. Cui, C. J. Yu, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Multistate magnetoresistance in zigzag-edge trigonal graphene magnetic junctions”, J. Mater. Sci. 54, 5551-5560 (2019).

42. G. P. Zhang, Y. Q. Mu, J. M. Zhao, H. Huang, G. C. Hu, Z. L. Li, and C. K. Wang, “Optimizing the conductance switching performance in photoswitchable dimethyldihydropyrene/cyclophanediene single-molecule junctions”, Physica E 109, 1-5 (2019).

43. Z. Q. Wang, Y. F. Li, X. Niu, M. Z. Wei, M. M. Dong, G. C. Hu, Z. L. Li, D. Y. Wang, J. F. Ren, C. K. Wang, and G. P. Zhang, “Controlling the conductance of single-molecule junctions with high spin filtering efficiency by intramolecular proton transfer”, Org. Electron. 64, 7 (2019).

44. Y. Y. Miao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Ground-state properties of metal/organic-ferromagnet heterojunctions”, Phys. Rev. B 98, 235415 (2018).

45. C. J. Yu, Y. Y. Miao, S. Qiu, Y. J. Cui, G. M. He, G. P. Zhang, C. K. Wang, and G. C. Hu,* “Modulating spin-dependent electron transport in benzene-dithiolate magnetic junctions by hybrid interface states”, J. Phys. D: Appl. Phys. 51, 345302 (2018).

46. Y. Y. Miao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Polarons in organic ferromagnets”, Org. Electron. 55, 133-139 (2018).

47. S. Qiu, Z. Zhang, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu*, “Modulation of spatial spin polarization at organic spinterface by side groups”, Appl. Surf. Sci. 427, 416 (2018).

48. X. B. Yuan, L. L. Cai, Y. L. Tian, G. C. Hu, and J. F. Ren, “Electric field induced spin polarization oscillation in nonmagnetic benzene/Cu(100) interface: First principles calculations”, Appl. Surf. Sci. 427, 156 (2018).

49. M. Z. Wei, Z. Q. Wang, X. X. Fu, G. C. Hu, Z. L. Li, C. K. Wang*, and G. P. Zhang*, “Theoretical understanding of the inversion of rectification direction in ferrocenyl-embedded tridecanethiolate single-molecule rectifiers”, Physica E 103, 397-402 (2018).

50. Z. Q. Wang, M. Z. Wei, M. M. Dong, G. C. Hu, Z. L. Li, C. K. Wang*, G. P. Zhang*, “High-Performance Single-Molecule Switch Designed by Changing Parity of Electronic Wave Functions via Intramolecular Proton Transfer”, J. Phys. Chem. C, 122, 17650-17659 (2018).

51. G. P. Zhang, Y. Q. Mu, M. Z. Wei, S. Wang, H. Huang, G. C. Hu, Z. L. Li, and C. K. Wang, “Designing molecular rectifiers and spin valves using metallocene-functionalized undecanethiolates: one transition metal atom matters”, J. Mater. Chem. C 6, 2105 (2018).

52. X. B. Yuan, Y. L. Tian, X. W. Zhao, W. W. Yue, G. C. Hu, and J. F. Ren, “Spin polarization properties of benzene/graphene with transition metals as dopants: First principles calculations: First principles calculations”, Appl. Surf. Sci. 439, 1158 (2018).

53. B. Qiu, X. W. Zhao, G. C. Hu, W. W. Yue, J. F. Ren,* and X. B. Yuan,* Optical Properties of Graphene/MoS2 Heterostructure: First Principles Calculations, Nanomaterials 8, 962 (2018).

54. X. W. Zhao, B.Qiu, G. C. Hu, W. W. Yue, J. F. Ren, and X. B. Yuan, “Spin Polarization Properties of Pentagonal PdSe2 Induced by 3D Transition-Metal Doping: First-Principles Calculations”, Materials 11, 2339 (2018).

55. X. W. Zhao, Y. L. Tian, W. W. Yue, M. N. Chen, G. C. Hu, J. F. Ren,* and X. B. Yuan,* “Adsorption of methanol molecule on graphene: Experimental results and first-principles calculations”, Inter. J. Mod. Phys. B 32, 1850102 (2018).

56. G. P. Zhang, Z. Xie, Y. Song, G. C. Hu,* and C. K. Wang,* “Towards Rectifying Performance at the Molecular Scale”, Top. Curr. Chem. 375, 85 (2017).

57. G. C. Hu, S. J. Xie, C. K. Wang, and C. Timm, “Spin-dependent transport and functional design in organic ferromagnetic devices”, Beilstein J. Nanotechnol. 8, 1919 (2017).

58. Y. L. Tian, J. F. Ren, W. W. Yue, M. N. Chen, G. C. Hu, and X. B. Yuan, “Adsorption of chloroform on N-doped and Al-doped graphene: A first-principle study”, Chem. Phys. Lett. 685, 344 (2017).

59. Y. L. Tian, H. L. Hua, W. W. Yue, M. N. Chen, G. C. Hu, J. F. Ren, and X. B. Yuan, “Adsorption properties of chloroform molecule on graphene: Experimental and first-principles calculations”, Mod. Phys. Lett. B 31, 1750335 (2017).

60. S. Wang, M. Z. Wei, G. C. Hu, G. P. Zhang, and C. K. Wang, “Mechanisms of the odd-even effect and its reversal in rectifying performance of ferrocenyl-n-alkanethiolate molecular diodes”, Org. Electron. 49, 76 (2017).

61. G. P. Zhang, S. Wang, M. Z. Wei, G. C. Hu, and C. K. Wang, “Tuning the direction of rectification by adjusting location of bipyridyl group in alkanethiolate molecular diodes”, J. Phys. Chem. C 121, 7643 (2017).

62. G. P. Zhang, Z. Xie, Y. Song, M. Z. Wei, G. C. Hu, and C. K. Wang, “Is there a specific correlation between conductance and molecular aromaticity in single-molecule junction?” Org. Electron. 48, 29 (2017).

63. Z. Zhang, Y. Li, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Modulation of organic interfacial spin polarization by interfacial angle”, Chem. Phys. Lett. 667, 15 (2017)

64. Z. Zhang, S. Qiu, Y. Y. Miao, J. F. Ren, C. K. Wang, and G. C. Hu,* “Spin selection at organic spinterface by anchoring group”, Appl. Surf. Sci. 409, 60 (2017).

65. L. L. Cai, Y. L. Tian, X. B. Yuan, G. C. Hu, and J. F. Ren, “Electronic structures of spinterface for thiophene molecule adsorbedat Co, Fe, and Ni electrode: First principles calculations”, Appl. Surf. Sci. 389, 916 (2016).

66. G. C. Hu, Z. Zhang, G. P. Zhang, and C. K. Wang, “Inversion of spin-current rectification in magnetic co-oligomer diodes”, Org. Electron. 37, 485 (2016).

67. Y. Li, G. P. Zhang, Z. Xie, Z. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Spin Polarization at Organic-Ferromagnetic Interface: Effect of Contact Configuration”, Chin. J. Chem. Phys. 29, 344 (2016).

68. L. Zhang, L. L. Cai, J. F. Ren, X. B. Yuan, and G. C. Hu, “Electronic structure of (Cu+N) co-doped anatase TiO2 at the surfaces of (001) and (101): A first-principle study”, Sci. China-Phys. Mech. Astron. 46(3), 037002 (2016).

69. L. Zhang, L. L. Cai, X. B. Yuan, G. C. Hu, and J. F. Ren, “Effect of acceptor-donor complexes on electronic structure properties in co-doped TiO2: A first-principles study”, Physica E 81, 156 (2016).

70. G. C. Hu, Z. Zhang, Y. Li, J. F. Ren, and C. K. Wang, “Length dependence of rectification in organic co-oligomer spin rectifiers”, Chin. Phys. B 25, 057308 (2016).

71. G. C. Hu, M. Y. Zuo, Y. Li, Z. Zhang, J. F. Ren, and C. K. Wang, “Effect of interfacial coupling on the rectification in organic spin rectifiers”, Chin. Phys. B 24, 077308 (2015).

72. H. Jiang, C. Zhang, X. N. Hu, G. C. Hu, and S. J. Xie, “Spin polarization of polarons in quasi-one dimensional organic system”, Mod. Phys. Lett. B 29, 1450266 (2015).

73. J. F. Ren, R. R. Song, X. B. Yuan, and G. C. Hu, “Spin polarized current injection and transportation in a double T-shaped organic spintronic device”, Sci. China-Phys. Mech. Astron.58, 037003 (2015).

74. J. F. Ren, Y. R. Zhang, L. Zhang, X. B. Yuan, and G. C. Hu, “Spontaneous spin polarization in rubrene studied by density functional theory calculations”, Physica E 66, 299 (2015).

75. G. C. Hu, G. P. Zhang, Y. Li, J. F. Ren, and C. K. Wang, “Proportion effect in diblock co-oligomer molecular diodes”, Chem. Phys. Lett. 614, 207 (2014).

76. G. C. Hu, M. Y. Zuo, Y. Li, J. F. Ren, and S. J. Xie, “Multi-state magnetoresistance in ferromagnet/organic-ferromagnet/ferromagnet junctions”, Appl. Phys. Lett. 104, 033302 (2014).

77. G. C. Hu, H. Wang, J. F. Ren, S. J. Xie, and C. Timm, “Spin-charge disparity of polarons in organic ferromagnets”, Org. Electron. 15, 118 (2014).

78. M. Y. Zuo, G. C. Hu,* Y. Li, J. F. Ren, and C. K. Wang, “Spin-excited and rectification in an organic spin rectifier”, Chin. Phys. B 23, 087306 (2014).

79. G. P. Zhang, Z. Xie, Y. Song, G. C. Hu,* and C. K. Wang,* “Molecular-length induced inversion of rectification in diblock pyrimidinyl-phenyl molecular junctions”, Chem. Phys. Lett. 591, 296 (2014).

80. J. F. Ren, X. B. Yuan, and G. C. Hu, “Spin Polarization Properties of Na Doped Meridianal Tris(8-Hydroxyquinoline) Aluminum Studied by First Principles Calculations”, Chin. Phys. Lett. 31, 048502 (2014).

81. X. N. Lin, G. P. Zhang, J. F. Ren, X. B. Yuan, and G. C. Hu, “Electronic transport properties of oligophenyleneethynylene molecular junctions in alkaline and acid solutions”, Acta. Phys. Sin. 63, 068502 (2014).

82. J. F. Ren, Y. R. Zhang, L. Zhang, X. B. Yuan, and G. C. Hu, “Structural and electronic properties of SiC/AlN core/shell nanowires: a first-principles study”, Mod. Phys. Lett. B 28, 1450195 (2014).

83. J. F. Ren, Y. R. Zhang, X. B. Yuan, and G. C. Hu, “Density Functional Theory Calculations of Charge-Induced Spin Polarization in Pentacene”, Chin. J. Chem. Phys. 27, 617 (2014).

84. G. P. Zhang, G. C. Hu,* Y. Song, Z. Xie, and C. K. Wang,* “Stretch or contraction induced inversion of rectification in diblock molecular junctions”, J. Chem. Phys. 139, 094702 (2013).

85. R. R. Song, J. F. Ren, Z. T. Dou, X. B. Yuan, and G. C. Hu, “Enhancement of spin injection efficiency in a T-shaped organic device”, Sci. China Ser. G 43, 129 (2013).

86. H. Wang, G. C. Hu,* and J. F. Ren, “Effect of dimerization on magnetoresistance in organic spin valves”, Chin. Phys. B 22(5), 058504 (2013).

87. X. B. Yuan, J. F. Ren, and G. C. Hu, “Effects of carrier differences on magnetoresistance in organic and inorganic spin valves”, Chin. Phys. Lett. 29(6), 067501 (2012).

88. Z. T. Dou, J. F. Ren, Y. M. Wang, X. B. Yuan, and G. C. Hu, “Enlargement of current spin polarization in organic spintronic device”, Acta. Phys. Sin. 61, 088503 (2012).

89. Y. M. Wang, J. F. Ren, X. B. Yuan, Z. T. Dou, and G. C. Hu, “Effects of electric field and magnetic field on current spin polarization and magnetoresistance in ferromagnetic/organic semiconductor/ferromagnetic (FM/OSC/FM) system”, Chin. Phys. B 21(10), 108508 (2012).

90. G. P. Zhang, G. C. Hu,* Y. Song, Z. L. Li, and C. K. Wang,* “Modification of rectification in diblock co-oligomer diodes by adjusting anchoring groups for both symmetric and asymmetric electrodes”, J. Phys. Chem. C 116, 22009 (2012).

91. G. P. Zhang, G. C. Hu, Z. L. Li, and C. K. Wang, “Theoretical studies on protonation induced inversion of the rectifying direction in dipyrimidinyl-diphenyl diblock molecular junctions”, J. Phys. Chem. C 116, 3773 (2012).

92. M. X. Xiu, J. F. Ren, C. K. Wang, X. B. Yuan, and G. C. Hu, “Amplification of current spin polarization in ferromagnetic/organic system with spin-related interfacial resistances”, Int. J. Mod. Phys. B 25, 4339 (2011).

93. G. P. Zhang, G. C. Hu, Z. L. Li, and C. K. Wang, “The effects of contact configuration on the rectification of dipyrimidinyl-diphenyl diblock molecular junctions”, Chin. Phys. B 20(12), 127304 (2011).

94. H. Wang, G. C. Hu,* and J. F. Ren, “The effect of disturbance on spin polarized transport through an organic ferromagnetic device”, Acta. Phys. Sin. 60, 127201 (2011).

95. Y. M. Wang, J. F. Ren, X. B. Yuan, Z. T. Dou, and G. C. Hu, “Effects of electric field and magnetic induction on spin injection into organic semiconductors”, Physica B 406, 926 (2011).

96. G. C. Hu, H. Wang, and J. F. Ren, “Effect of proportion on rectification in organic co-oligomer spin rectifiers”, Chin. Phys. B 20, 077306 (2011).

97. G. C. Hu, G. P. Zhang, J. F. Ren, C. K. Wang, and S. J. Xie, “Length dependent inversion of rectification in diblock co-oligomer diodes”, Appl. Phys. Lett. 99, 082105 (2011).

98. Y. M. Wang, J. F. Ren, X. B. Yuan, M. X. Xiu, and G. C. Hu, “Spin diffusion and drift in ferromagnetic/organic system”, Sci. China Ser. G 40, 410 (2010).

99. M. X. Xiu, J. F. Ren, Y. M. Wang, X. B. Yuan, and G. C. Hu, “Effect of Schottky barrier on spin injection in ferromagnetic/organic structure”, Acta. Phys. Sin. 59, 534 (2010).

100.J. F. Ren, Y. M. Wang, X. B. Yuan, and G. C. Hu, “Magnetoresistance effect in an organic spin valve”, Acta. Phys. Sin. 59, 6580 (2010).

101.H. Jiang, G. C. Hu, and S. J. Xie, “Effects of electron delocalization in quasi-one-dimensional organic ferromagnet”, Physica B 405, S299 (2010).

102.H. Jiang, G. C. Hu, Y. Guo, and S. J. Xie, “Effects of spin excited states on electron transport through an organic ferromagnetic device”, Org. Electron. 10, 809 (2009).

103.G. C. Hu, K. L. He, A. Saxena, and S. J. Xie, “Spin-current rectification in an organic magnetic/nonmagnetic device”, J. Chem. Phys. 129, 234708 (2008).

104.Z. Wei, Y. M. Wang, and G. C. Hu,* “Effect of single-charge state on the transport property of molecular wire”, J. Atom. Mol. Phys. 25, 785 (2008).

105.Y. B. Zhang, J. F. Ren, G. C. Hu, and S. J. Xie, “Effects of polarons and bipolarons on spin polarized transport in organic semiconductors”, Org. Electron. 9, 687 (2008).

106.C. J. Xia, C. F. Fang, G. C. Hu, P. Zhao, Y. M. Wang, S. J. Xie, and D. S. Liu, “Effects of contact atomic structure on electronic transport in molecular junction”, Chin. Phys. Lett. 25, 1840 (2008).

107.D. M. Li, X. J. Liu, Y. Li, H. H. Li, G. C. Hu, K. Gao, D. S. Liu, and S. J. Xie, “Dynamical study on charge injection and transport in a metal/polythiophene/metal structure”, Chin. Phys. B 17, 3067 (2008).

108.G. C. Hu, Y. Guo, J. H. Wei, and S. J. Xie, “Spin filtering through a metal/organic-ferromagnet /metal structure”, Phys. Rev. B 75, 165321 (2007).

109.G. C. Hu, J. H. Wei, and S. J. Xie, “Bias-induced orbital hybridization in diblock co-oligomer diodes”, Appl. Phys. Lett. 91, 142115 (2007).

110.G. C. Hu, Y. Guo, J. H. Wei, and S. J. Xie, “Kink and conductance of an organic molecular wire”, Phys. Lett. A 370, 78 (2007).

111.C. J. Xia, C. F. Fang, G. C. Hu, D. S. Liu, and S. J. Xie, “Effect of side radical on the electron transport properties of molecular devices”, Acta. Phys. Sin. 57, 3148 (2007).

112.C. J. Xia, C. F. Fang, G. C. Hu, D. M. Li, D. S. Liu, and S. J. Xie, “Effect of the relative orientation of molecules on the electronic transport property of molecular devices”, Acta. Phys. Sin. 56, 4884 (2007).

113.Y. Li, G. C. Hu, C. J. Xia, D. S. Liu, and S. J. Xie, “Ground state and polaron and bipolaron excited states in polydiacetylene”, Sci. China Ser. G 49, 430 (2006).


College Leaders
Organization
College history

Guichao Hu


Curriculum Vitae – Prof. Dr. Guichao Hu


Date of Birth: 12 June, 1980

Nationality: Chinese


Present address

School of Physics and Electronics, Shandong Normal University, Jinan 250358, P. R. China

Email: hgc@sdnu.edu.cn, 44003944@qq.com,

Personal website

https://www.scholarmate.com/P/VJzURf

Education

l Shandong University, China, Ph. D student in Theoretical Condensed Matter Physics, Sep. 2003- Jun.2008

l Shandong University, B.Sc. student in Physics, Sep. 1999-Jun. 2003


Working Experience

l School of Physics and Electronics, Shandong Normal University, Jinan 250358, P. R. China, Professor, Sep. 2008-Present

l Institute of Theoretical Physics, Technical University Dresden, Germany, Dresden Junior Fellow, May 2016-Mar. 2017

l Department of Physics and Astronomy, University of Missouri, USA, Visiting Scholar, Feb. 2014- Nov. 2016

l Institute of Theoretical Physics, Technical University Dresden, Germany, Visiting Scholar, Feb. 2012-Jul. 2012


Award and Honors

l Excellent supervisor for Master’s thesis of Shandong Normal University (2022)

l Excellent supervisor for Bachelor’s thesis of Shandong Normal University (2019-2022)

l Excellent supervisor for Master’s thesis of Shandong Province (2020)

l Award for Science and Technology of university in Shandong Province (2020)

l Award for Science and Technology of university in Shandong Province (2019)

l Excellent supervisor for Master’s thesis of Shandong Normal University (2017)

l DRESDEN Junior Fellowship (2016)

l Award for outstanding achievements in scientific research of Shandong Province (2015)

l Excellent Teacher Study Abroad Program of Shandong Province Government (2014)

l Excellent Young Scholars Research fund of Shandong Normal University (2013)

l Outstanding Teacher International Cooperation Program of Shandong Province (2012)

l Award for outstanding achievements in scientific research of Shandong Province (2009)


Research fields

Organic spintronics; Molecular spintronics; Quantum transport; Organic magnets; Condensed Matter Theory


International conferences and talks

l Oscillating Spin Hall Effect in Organic Chains via Polaron Transport” (Poster), August 13, 2018, Halle, Germany

l Spin-dependent transport and functional design in organic ferromagnetic devices”(Oral), February 10, 2017, Technischen Universität Darmstadt, Darmstadt, Germany

l Multi-state magnetoresistance in ferromagnet/organic-ferromagnet/ferromagnet junctions”(Poster), APS March Meeting 2016, May 14-18, 2016, Baltimore, Maryland, US

l Design of organic spintronic devices with organic ferromagn” (Oral), June 30, 2016, Technischen Universität Dresden, Dresden, Germany

l Spin-dependent transport in organic-ferromagnet devices” (Oral), December 10, 2014, University of Missouri-Columbia, Columbia, US

l Spin-dependent transport in organic-ferromagnet devices” (Oral, invited), “Towards Molecular Spintronics”, June 22-23, 2012, Burgstädt, Germany.

l The 20th ICSM, July 4-9, 2010, Kyoto, Japan.

l Spin-current rectification in magnetic/nonmagnetic co-oligomers” (Poster), Asian Magnetic Conference 2008, December 10-13, 2008, Busan, Korea.

l SpinOS 2007, September 9-11, 2007, Bologna, Italy


Selected papers published in refereed international journals

1. Y. Y. Miao, D. W. Yu, D. Li, H. Q. Zhang, J. F. Ren, and G. C. Hu*, “Acceleration of polaron induced by site effective mass increment in organic ferromagnets”, New J. Phys. 24, 083044 (2022).

2. L. M. Zhang, Y. Y. Miao, Z. P. Cao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu*, “Bias-induced reconstruction of hybrid interface statesin magnetic molecular junctions”, Chin. Phys. B 31, 057303 (2022).

3. H. Q. Zhang, D. Li, Y. Y. Miao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu*, “Molecular rectification assisted by spin-polarized hybrid interfacial states”, Phys. Lett. A 443, 128200 (2022).

4. Y. Y. Miao, L. Y. Chen, G. P. Zhang, C. K. Wang, J. F. Ren, C. Timm, and G. C. Hu*, “Mechanism of length-induced magnetism in polyacene molecules”, Phys. Rev. B 105, 094419 (2022).

5. Y. Y. Miao, H. J. Kan, D. Li, C. K. Wang, J. F. Ren, and G. C. Hu*, “Spin precession of polarons in organic ferromagnets”, Phys. Lett. A 433, 128024 (2022).

6. R. J. Sun, J. J. Lu, X. W. Zhao, G. C. Hu, X. B. Yuan, and J. F. Ren, “Robust valley polarization induced by super-exchange effects in HfNX (X=Cl, Br, I)/FeCl2 two-dimensional ferrovalley heterostructures”, Appl. Phys. Lett. 120, 063103 (2022).

7. R. J. Sun, R. Liu, J. J. Lu, X. W. Zhao, G. C. Hu, X. B. Yuan, and J. F. Ren, “Reversible switching of anomalous valley Hall effect in ferrovalley Janus 1T-CrOX (X = F, Cl, Br, I) and the multiferroic heterostructure CrOX/In2Se3”, Phys. Rev. B 105, 235416 (2022).

8. X. B. Yuan, Y. H. Guo, J. L. Wang, G. C. Hu, J. F. Ren, and X. W. Zhao, “Type-II Band Alignment and Tunable Optical Absorption in MoSSe/InS van der Waals Heterostructure”, Front. Chem. 10, 861838 (2022).

9. H. Wang,* H. Y. Shi, X. J. Yuan, J. F. Zhao, H. X. Bu, and G. C. Hu,* “Spin-dependent polaron dynamics in organic ferromagnets”, J. Phys. Chem. Lett. 13, 614 (2022).

10. D. Li, H. Q. Zhang, Y. Y. Miao, J. F. Ren, C. K. Wang, and G. C. Hu,* “Length dependence of magnetoresistance in organic spin valves”, J. Appl. Phys. 131, 055501 (2022).

11. Z. P. Cao, Y. Y. Miao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, G. C. Hu,* and L. N. Zhao,* “Site-dependent spin-polarized tunneling via hybrid interface states on molecule/ferromagnet surface”, Phys. E 138, 115071 (2022).

12. J. T. Guo, Z. T. Lu, K. Y. Wang, X. W. Zhao, G. C. Hu, X. B. Yuan, and J. F. Ren, “Large valley polarization in a novel two-dimensional semiconductor H-ZrX2 (X = Cl, Br, I)”, J. Phys.: Condens. Mat. 34, 075701 (2022).

13. J. L. Wang, X. W. Zhao, G. C. Hu, J. F. Ren,* and X. B. Yuan, “Manipulable Electronic and Optical Properties of Two-Dimensional MoSTe/MoGe2N4 van der Waals Heterostructures”, Nanomaterials, 11, 3338 (2021).

14. Z. Yang, J. Y. Song, J. T. Guo, X. W. Zhao, G. C. Hu, X. B. Yuan, and J. F. Ren, “Electronic structure and enhanced photocatalytic properties in Ca (OH)2/GeC van der Waals heterostructure”, Eur. Phys. J. B 94, 157 (2021).

15. G. P. Zhang,* L. Y. Chen, J. M. Zhao, Y. Z. Sun, N. P. Shi, M. L. Wang, G. C. Hu, and C. K. Wang, “Large Rectification Ratio of up to 106 for Conjugation-Group Terminated Undecanethiolate Single-Molecule Diodes on Pt Electrodes”, J. Phys. Chem. C, 125, 20783 (2021).

16. J. T. Guo, X. W. Zhao, G. C. Hu, J. F. Ren,* and X. B. Yuan, “Observation and manipulation of valley polarization in two-dimensional H-Tl2O/CrI3 heterostructure”, Appl. Surf. Sci. 558, 149604 (2021).

17. Y. H. Guo, J. L. Wang, G. C. Hu, X. B. Yuan,, and J. F. Ren, “ Strain-tunable electronic and optical properties of novel MoSSe/InSe van der Waals heterostructures”, Phys. Lett. A 404, 127395 (2021).

18. S. Qiu, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang,* and G. C. Hu,* “Modulation of hybrid interface states and magnetoresistance in quantum interference systems via functional groups”, J. Magn. Magn. Mater. 537, 168138 (2021).

19. Y. Y. Miao, S. Qiu, G. P. Zhang, C. K. Wang, J. F. Ren,* and G. C. Hu,* “Electric field induced magnetism decline in organic ferromagnets”, Physica E 131, 114729 (2021).

20. J. S. Qi, Y. Y. Miao, Y. J. Cui, S. Qiu, J. M. Zhao, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Length-induced large magnetoresistance in polyacene molecular spin valves”, Results. Phys. 27, 104510 (2021).

21. F. Tang, Z. Q. Wang, S. X. Wang, M. L. Wang, G. C. Hu, C. K. Wang, and G. P. Zhang, “Adsorption-site-dependent magnetic and electronic properties for single-or double-fluorine-atom adsorbed boron nitride nanotubes and their possible applications in spin filters”, Phys. Lett. A 389, 127071 (2021).

22. S. Qiu, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang,* and G. C. Hu,* “Protonation control of spin transport properties in magnetic single-molecule junctions”, J. Mater. Sci. 55, 16311 (2020).

23. Y. Q. Li, H. J. Kan, Y. Y. Miao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Magnetic manipulation of orbital hybridization and magnetoresistance inorganic ferromagnetic co-oligomers”, Physica E 124, 114327 (2020).

24. H. J. Kan, Y. Y. Miao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Weak-field polaron dynamics in organic ferromagnets”, Phys. Chem. Chem. Phys. 22, 15707 (2020).

25. Y. Li, J. J. Liu, X. W. Zhao, X. Z. Yuan, G. C. Hu, X. B. Yuan, and J. F. Ren, “Strain forces tuned the electronic and optical properties in GaTe/MoS2 van der Waals heterostructures”, RSC Adv. 10, 25136 (2020).

26. S. Qiu, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang,* and G. C. Hu,* “Manipulating Current Spin Polarization in Magnetic Single-Molecule Junctions via Destructive Quantum Interference”, J. Phys. Chem. C 124, 12144 (2020).

27. Y. Q. Li, H. J. Kan, Y. Y. Miao, L. Yang, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Tunneling magnetoresistance in ferromagnet/organic-ferromagnet/metal junctions”, Chin. Phys. B 29, 017303 (2020).

28. X. Gao, S. H. Liang, A. Ferri, W. C. Huang, D. Rouxel, X. Devaux, X. G. Li, H. X. Yang, M. Chshiev, R. Desfeux, A. D. Costa, G. C. Hu, M. Stoffel, A. Nachawaty, C. P. Jiang, Z. M. Zeng, J. P. Liu, H. Yang, and Yuan Lu, “Enhancement of ferroelectric performance in PVDF:Fe3O4 nanocomposite based organic multiferroic tunnel junctions”, Appl. Phys. Letts. 116, 152905 (2020).

29. R. D. Liang, X. W. Zhao, G. C. Hu, W. W. Yue, X. B. Yuan, and J. F. Ren, “Electronic Structure and Optical Properties of a Mn-Doped InSe/WSe2 van der Walls Heterostructure: First Principles Calculations”, J. Korean. Phys. Soc. 77, 587 (2020).

30. X. W. Zhao, Z. Yang, J. T. Guo, G. C. Hu, W. W. Yue, X. B. Yuan, and J. F. Ren, “Tuning electronic and optical properties of monolayer PdSe2 by introducing defects: first-principles calculations”, Sci. Rep. 10, 4028 (2020).

31. X. W. Zhao, Y. Li, R. D. Liang, G. C. Hu, X. B. Yuan, and J. F. Ren, “Enhanced valley polarization at valence/conduction band in transitionmetal-doped WTe2 under strain force”, Appl. Surf. Sci. 504, 144367 (2020).

32. Z. Q. Wang, F. Tang, M. L. Wang, G. C. Hu, J. C. Leng, C. K. Wang, and G. P. Zhang, “Modulation of spin thermoelectric properties in transition metal porphyrin single-molecule spin caloritronic devices by Fano resonance”, Physca E 121, 114129 (2020).

33. B. Qiu, X. W. Zhao, Y. Li, R. D. Liang, G. C. Hu, X. B. Yuan, and J. F. Ren, “Effects of lanthanides doping on the optical properties of graphene/WSe2 heterostructure based on ab-initio calculations”, Phys. Lett. A 384, 126663 (2020).

34. B. Qiu, X. W. Zhao, G. C. Hu, W. W. Yue, X. B. Yuan, and J. F. Ren, “Tuning electronic and optical properties of Graphene/WSe2 heterojunction by introducing vacancy: First principles calculations”, Physica E 116, 113729 (2020).

35. Y. Li, B. Qiu, X. W. Zhao, G. C. Hu, W. W. Yue, X. B. Yuan, and J. F. Ren, “Spin polarization properties of two-dimensional MoSeTe induced by transition-metal doping: first-principles calculations”, Eur. Phys. J. B 92, 266 (2019).

36. X. W. Zhao, B. Qiu, G. C. Hu, W. W. Yue, J. F. Ren, and X. B. Yuan, “Transition-metal doping/adsorption induced valley polarization in Janus WSSe: First-principles calculations”, Appl. Surf. Sci. 490, 172-177 (2019).

37. X. W. Zhao, B. Qiu, W. W. Yue, G. C. Hu, J. F. Ren, and X. B. Yuan, “Spontaneous spin polarization of methanol molecule adsorbed on B- or N-doped graphene: first-principles calculations”, Eur. Phys. J. B 92, 44 (2019).

38. M. Z. Wei, X. X. Fu, Z. Q. Wang, G. C. Hu, Z. L. Li, C. K. Wang, and G. P. Zhang, “Bias and molecular-length dependent odd–even effect of rectification in 40-methyl-2,20-bipyridylterminated n-alkanethiolate single-molecule diodes”, J. Mater. Chem. C 7, 9000-9007 (2019).

39. S. Qiu, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang,* and G. C. Hu,* “Modulating hybrid interface states in magnetic molecular junctions by molecular geometrical torsion”, J. Magn. Magn. Mater. 489, 165465 (2019).

40. S. Qiu, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang,* and G. C. Hu,* “Enhancement of magnetoresistance and current spin polarization in single molecule junctions by manipulating the hybrid interface states via anchoring groups”, J. Magn. Magn. Mater. 479, 247-253 (2019).

41. G. M. He, S. Qiu, Y. J. Cui, C. J. Yu, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Multistate magnetoresistance in zigzag-edge trigonal graphene magnetic junctions”, J. Mater. Sci. 54, 5551-5560 (2019).

42. G. P. Zhang, Y. Q. Mu, J. M. Zhao, H. Huang, G. C. Hu, Z. L. Li, and C. K. Wang, “Optimizing the conductance switching performance in photoswitchable dimethyldihydropyrene/cyclophanediene single-molecule junctions”, Physica E 109, 1-5 (2019).

43. Z. Q. Wang, Y. F. Li, X. Niu, M. Z. Wei, M. M. Dong, G. C. Hu, Z. L. Li, D. Y. Wang, J. F. Ren, C. K. Wang, and G. P. Zhang, “Controlling the conductance of single-molecule junctions with high spin filtering efficiency by intramolecular proton transfer”, Org. Electron. 64, 7 (2019).

44. Y. Y. Miao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Ground-state properties of metal/organic-ferromagnet heterojunctions”, Phys. Rev. B 98, 235415 (2018).

45. C. J. Yu, Y. Y. Miao, S. Qiu, Y. J. Cui, G. M. He, G. P. Zhang, C. K. Wang, and G. C. Hu,* “Modulating spin-dependent electron transport in benzene-dithiolate magnetic junctions by hybrid interface states”, J. Phys. D: Appl. Phys. 51, 345302 (2018).

46. Y. Y. Miao, S. Qiu, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Polarons in organic ferromagnets”, Org. Electron. 55, 133-139 (2018).

47. S. Qiu, Z. Zhang, Y. Y. Miao, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu*, “Modulation of spatial spin polarization at organic spinterface by side groups”, Appl. Surf. Sci. 427, 416 (2018).

48. X. B. Yuan, L. L. Cai, Y. L. Tian, G. C. Hu, and J. F. Ren, “Electric field induced spin polarization oscillation in nonmagnetic benzene/Cu(100) interface: First principles calculations”, Appl. Surf. Sci. 427, 156 (2018).

49. M. Z. Wei, Z. Q. Wang, X. X. Fu, G. C. Hu, Z. L. Li, C. K. Wang*, and G. P. Zhang*, “Theoretical understanding of the inversion of rectification direction in ferrocenyl-embedded tridecanethiolate single-molecule rectifiers”, Physica E 103, 397-402 (2018).

50. Z. Q. Wang, M. Z. Wei, M. M. Dong, G. C. Hu, Z. L. Li, C. K. Wang*, G. P. Zhang*, “High-Performance Single-Molecule Switch Designed by Changing Parity of Electronic Wave Functions via Intramolecular Proton Transfer”, J. Phys. Chem. C, 122, 17650-17659 (2018).

51. G. P. Zhang, Y. Q. Mu, M. Z. Wei, S. Wang, H. Huang, G. C. Hu, Z. L. Li, and C. K. Wang, “Designing molecular rectifiers and spin valves using metallocene-functionalized undecanethiolates: one transition metal atom matters”, J. Mater. Chem. C 6, 2105 (2018).

52. X. B. Yuan, Y. L. Tian, X. W. Zhao, W. W. Yue, G. C. Hu, and J. F. Ren, “Spin polarization properties of benzene/graphene with transition metals as dopants: First principles calculations: First principles calculations”, Appl. Surf. Sci. 439, 1158 (2018).

53. B. Qiu, X. W. Zhao, G. C. Hu, W. W. Yue, J. F. Ren,* and X. B. Yuan,* Optical Properties of Graphene/MoS2 Heterostructure: First Principles Calculations, Nanomaterials 8, 962 (2018).

54. X. W. Zhao, B.Qiu, G. C. Hu, W. W. Yue, J. F. Ren, and X. B. Yuan, “Spin Polarization Properties of Pentagonal PdSe2 Induced by 3D Transition-Metal Doping: First-Principles Calculations”, Materials 11, 2339 (2018).

55. X. W. Zhao, Y. L. Tian, W. W. Yue, M. N. Chen, G. C. Hu, J. F. Ren,* and X. B. Yuan,* “Adsorption of methanol molecule on graphene: Experimental results and first-principles calculations”, Inter. J. Mod. Phys. B 32, 1850102 (2018).

56. G. P. Zhang, Z. Xie, Y. Song, G. C. Hu,* and C. K. Wang,* “Towards Rectifying Performance at the Molecular Scale”, Top. Curr. Chem. 375, 85 (2017).

57. G. C. Hu, S. J. Xie, C. K. Wang, and C. Timm, “Spin-dependent transport and functional design in organic ferromagnetic devices”, Beilstein J. Nanotechnol. 8, 1919 (2017).

58. Y. L. Tian, J. F. Ren, W. W. Yue, M. N. Chen, G. C. Hu, and X. B. Yuan, “Adsorption of chloroform on N-doped and Al-doped graphene: A first-principle study”, Chem. Phys. Lett. 685, 344 (2017).

59. Y. L. Tian, H. L. Hua, W. W. Yue, M. N. Chen, G. C. Hu, J. F. Ren, and X. B. Yuan, “Adsorption properties of chloroform molecule on graphene: Experimental and first-principles calculations”, Mod. Phys. Lett. B 31, 1750335 (2017).

60. S. Wang, M. Z. Wei, G. C. Hu, G. P. Zhang, and C. K. Wang, “Mechanisms of the odd-even effect and its reversal in rectifying performance of ferrocenyl-n-alkanethiolate molecular diodes”, Org. Electron. 49, 76 (2017).

61. G. P. Zhang, S. Wang, M. Z. Wei, G. C. Hu, and C. K. Wang, “Tuning the direction of rectification by adjusting location of bipyridyl group in alkanethiolate molecular diodes”, J. Phys. Chem. C 121, 7643 (2017).

62. G. P. Zhang, Z. Xie, Y. Song, M. Z. Wei, G. C. Hu, and C. K. Wang, “Is there a specific correlation between conductance and molecular aromaticity in single-molecule junction?” Org. Electron. 48, 29 (2017).

63. Z. Zhang, Y. Li, G. P. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Modulation of organic interfacial spin polarization by interfacial angle”, Chem. Phys. Lett. 667, 15 (2017)

64. Z. Zhang, S. Qiu, Y. Y. Miao, J. F. Ren, C. K. Wang, and G. C. Hu,* “Spin selection at organic spinterface by anchoring group”, Appl. Surf. Sci. 409, 60 (2017).

65. L. L. Cai, Y. L. Tian, X. B. Yuan, G. C. Hu, and J. F. Ren, “Electronic structures of spinterface for thiophene molecule adsorbedat Co, Fe, and Ni electrode: First principles calculations”, Appl. Surf. Sci. 389, 916 (2016).

66. G. C. Hu, Z. Zhang, G. P. Zhang, and C. K. Wang, “Inversion of spin-current rectification in magnetic co-oligomer diodes”, Org. Electron. 37, 485 (2016).

67. Y. Li, G. P. Zhang, Z. Xie, Z. Zhang, J. F. Ren, C. K. Wang, and G. C. Hu,* “Spin Polarization at Organic-Ferromagnetic Interface: Effect of Contact Configuration”, Chin. J. Chem. Phys. 29, 344 (2016).

68. L. Zhang, L. L. Cai, J. F. Ren, X. B. Yuan, and G. C. Hu, “Electronic structure of (Cu+N) co-doped anatase TiO2 at the surfaces of (001) and (101): A first-principle study”, Sci. China-Phys. Mech. Astron. 46(3), 037002 (2016).

69. L. Zhang, L. L. Cai, X. B. Yuan, G. C. Hu, and J. F. Ren, “Effect of acceptor-donor complexes on electronic structure properties in co-doped TiO2: A first-principles study”, Physica E 81, 156 (2016).

70. G. C. Hu, Z. Zhang, Y. Li, J. F. Ren, and C. K. Wang, “Length dependence of rectification in organic co-oligomer spin rectifiers”, Chin. Phys. B 25, 057308 (2016).

71. G. C. Hu, M. Y. Zuo, Y. Li, Z. Zhang, J. F. Ren, and C. K. Wang, “Effect of interfacial coupling on the rectification in organic spin rectifiers”, Chin. Phys. B 24, 077308 (2015).

72. H. Jiang, C. Zhang, X. N. Hu, G. C. Hu, and S. J. Xie, “Spin polarization of polarons in quasi-one dimensional organic system”, Mod. Phys. Lett. B 29, 1450266 (2015).

73. J. F. Ren, R. R. Song, X. B. Yuan, and G. C. Hu, “Spin polarized current injection and transportation in a double T-shaped organic spintronic device”, Sci. China-Phys. Mech. Astron.58, 037003 (2015).

74. J. F. Ren, Y. R. Zhang, L. Zhang, X. B. Yuan, and G. C. Hu, “Spontaneous spin polarization in rubrene studied by density functional theory calculations”, Physica E 66, 299 (2015).

75. G. C. Hu, G. P. Zhang, Y. Li, J. F. Ren, and C. K. Wang, “Proportion effect in diblock co-oligomer molecular diodes”, Chem. Phys. Lett. 614, 207 (2014).

76. G. C. Hu, M. Y. Zuo, Y. Li, J. F. Ren, and S. J. Xie, “Multi-state magnetoresistance in ferromagnet/organic-ferromagnet/ferromagnet junctions”, Appl. Phys. Lett. 104, 033302 (2014).

77. G. C. Hu, H. Wang, J. F. Ren, S. J. Xie, and C. Timm, “Spin-charge disparity of polarons in organic ferromagnets”, Org. Electron. 15, 118 (2014).

78. M. Y. Zuo, G. C. Hu,* Y. Li, J. F. Ren, and C. K. Wang, “Spin-excited and rectification in an organic spin rectifier”, Chin. Phys. B 23, 087306 (2014).

79. G. P. Zhang, Z. Xie, Y. Song, G. C. Hu,* and C. K. Wang,* “Molecular-length induced inversion of rectification in diblock pyrimidinyl-phenyl molecular junctions”, Chem. Phys. Lett. 591, 296 (2014).

80. J. F. Ren, X. B. Yuan, and G. C. Hu, “Spin Polarization Properties of Na Doped Meridianal Tris(8-Hydroxyquinoline) Aluminum Studied by First Principles Calculations”, Chin. Phys. Lett. 31, 048502 (2014).

81. X. N. Lin, G. P. Zhang, J. F. Ren, X. B. Yuan, and G. C. Hu, “Electronic transport properties of oligophenyleneethynylene molecular junctions in alkaline and acid solutions”, Acta. Phys. Sin. 63, 068502 (2014).

82. J. F. Ren, Y. R. Zhang, L. Zhang, X. B. Yuan, and G. C. Hu, “Structural and electronic properties of SiC/AlN core/shell nanowires: a first-principles study”, Mod. Phys. Lett. B 28, 1450195 (2014).

83. J. F. Ren, Y. R. Zhang, X. B. Yuan, and G. C. Hu, “Density Functional Theory Calculations of Charge-Induced Spin Polarization in Pentacene”, Chin. J. Chem. Phys. 27, 617 (2014).

84. G. P. Zhang, G. C. Hu,* Y. Song, Z. Xie, and C. K. Wang,* “Stretch or contraction induced inversion of rectification in diblock molecular junctions”, J. Chem. Phys. 139, 094702 (2013).

85. R. R. Song, J. F. Ren, Z. T. Dou, X. B. Yuan, and G. C. Hu, “Enhancement of spin injection efficiency in a T-shaped organic device”, Sci. China Ser. G 43, 129 (2013).

86. H. Wang, G. C. Hu,* and J. F. Ren, “Effect of dimerization on magnetoresistance in organic spin valves”, Chin. Phys. B 22(5), 058504 (2013).

87. X. B. Yuan, J. F. Ren, and G. C. Hu, “Effects of carrier differences on magnetoresistance in organic and inorganic spin valves”, Chin. Phys. Lett. 29(6), 067501 (2012).

88. Z. T. Dou, J. F. Ren, Y. M. Wang, X. B. Yuan, and G. C. Hu, “Enlargement of current spin polarization in organic spintronic device”, Acta. Phys. Sin. 61, 088503 (2012).

89. Y. M. Wang, J. F. Ren, X. B. Yuan, Z. T. Dou, and G. C. Hu, “Effects of electric field and magnetic field on current spin polarization and magnetoresistance in ferromagnetic/organic semiconductor/ferromagnetic (FM/OSC/FM) system”, Chin. Phys. B 21(10), 108508 (2012).

90. G. P. Zhang, G. C. Hu,* Y. Song, Z. L. Li, and C. K. Wang,* “Modification of rectification in diblock co-oligomer diodes by adjusting anchoring groups for both symmetric and asymmetric electrodes”, J. Phys. Chem. C 116, 22009 (2012).

91. G. P. Zhang, G. C. Hu, Z. L. Li, and C. K. Wang, “Theoretical studies on protonation induced inversion of the rectifying direction in dipyrimidinyl-diphenyl diblock molecular junctions”, J. Phys. Chem. C 116, 3773 (2012).

92. M. X. Xiu, J. F. Ren, C. K. Wang, X. B. Yuan, and G. C. Hu, “Amplification of current spin polarization in ferromagnetic/organic system with spin-related interfacial resistances”, Int. J. Mod. Phys. B 25, 4339 (2011).

93. G. P. Zhang, G. C. Hu, Z. L. Li, and C. K. Wang, “The effects of contact configuration on the rectification of dipyrimidinyl-diphenyl diblock molecular junctions”, Chin. Phys. B 20(12), 127304 (2011).

94. H. Wang, G. C. Hu,* and J. F. Ren, “The effect of disturbance on spin polarized transport through an organic ferromagnetic device”, Acta. Phys. Sin. 60, 127201 (2011).

95. Y. M. Wang, J. F. Ren, X. B. Yuan, Z. T. Dou, and G. C. Hu, “Effects of electric field and magnetic induction on spin injection into organic semiconductors”, Physica B 406, 926 (2011).

96. G. C. Hu, H. Wang, and J. F. Ren, “Effect of proportion on rectification in organic co-oligomer spin rectifiers”, Chin. Phys. B 20, 077306 (2011).

97. G. C. Hu, G. P. Zhang, J. F. Ren, C. K. Wang, and S. J. Xie, “Length dependent inversion of rectification in diblock co-oligomer diodes”, Appl. Phys. Lett. 99, 082105 (2011).

98. Y. M. Wang, J. F. Ren, X. B. Yuan, M. X. Xiu, and G. C. Hu, “Spin diffusion and drift in ferromagnetic/organic system”, Sci. China Ser. G 40, 410 (2010).

99. M. X. Xiu, J. F. Ren, Y. M. Wang, X. B. Yuan, and G. C. Hu, “Effect of Schottky barrier on spin injection in ferromagnetic/organic structure”, Acta. Phys. Sin. 59, 534 (2010).

100.J. F. Ren, Y. M. Wang, X. B. Yuan, and G. C. Hu, “Magnetoresistance effect in an organic spin valve”, Acta. Phys. Sin. 59, 6580 (2010).

101.H. Jiang, G. C. Hu, and S. J. Xie, “Effects of electron delocalization in quasi-one-dimensional organic ferromagnet”, Physica B 405, S299 (2010).

102.H. Jiang, G. C. Hu, Y. Guo, and S. J. Xie, “Effects of spin excited states on electron transport through an organic ferromagnetic device”, Org. Electron. 10, 809 (2009).

103.G. C. Hu, K. L. He, A. Saxena, and S. J. Xie, “Spin-current rectification in an organic magnetic/nonmagnetic device”, J. Chem. Phys. 129, 234708 (2008).

104.Z. Wei, Y. M. Wang, and G. C. Hu,* “Effect of single-charge state on the transport property of molecular wire”, J. Atom. Mol. Phys. 25, 785 (2008).

105.Y. B. Zhang, J. F. Ren, G. C. Hu, and S. J. Xie, “Effects of polarons and bipolarons on spin polarized transport in organic semiconductors”, Org. Electron. 9, 687 (2008).

106.C. J. Xia, C. F. Fang, G. C. Hu, P. Zhao, Y. M. Wang, S. J. Xie, and D. S. Liu, “Effects of contact atomic structure on electronic transport in molecular junction”, Chin. Phys. Lett. 25, 1840 (2008).

107.D. M. Li, X. J. Liu, Y. Li, H. H. Li, G. C. Hu, K. Gao, D. S. Liu, and S. J. Xie, “Dynamical study on charge injection and transport in a metal/polythiophene/metal structure”, Chin. Phys. B 17, 3067 (2008).

108.G. C. Hu, Y. Guo, J. H. Wei, and S. J. Xie, “Spin filtering through a metal/organic-ferromagnet /metal structure”, Phys. Rev. B 75, 165321 (2007).

109.G. C. Hu, J. H. Wei, and S. J. Xie, “Bias-induced orbital hybridization in diblock co-oligomer diodes”, Appl. Phys. Lett. 91, 142115 (2007).

110.G. C. Hu, Y. Guo, J. H. Wei, and S. J. Xie, “Kink and conductance of an organic molecular wire”, Phys. Lett. A 370, 78 (2007).

111.C. J. Xia, C. F. Fang, G. C. Hu, D. S. Liu, and S. J. Xie, “Effect of side radical on the electron transport properties of molecular devices”, Acta. Phys. Sin. 57, 3148 (2007).

112.C. J. Xia, C. F. Fang, G. C. Hu, D. M. Li, D. S. Liu, and S. J. Xie, “Effect of the relative orientation of molecules on the electronic transport property of molecular devices”, Acta. Phys. Sin. 56, 4884 (2007).

113.Y. Li, G. C. Hu, C. J. Xia, D. S. Liu, and S. J. Xie, “Ground state and polaron and bipolaron excited states in polydiacetylene”, Sci. China Ser. G 49, 430 (2006).


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