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GuiQin Huang Professor

Research Interests: 
  • The peculiar properties of two-dimensional materials
  • The superconductivity of novel superconducting materials

Educational Background

  • PhD, Theoretical Physics, Nanjing University (2004)
  • MA, Theoretical Physics, Nanjing Normal University (1994)
  • BA, Physics, Nanjing Normal University (1991)

Research Projects

  1. “The topological quantum state and superconductivity in topological insulator/superconductor systems”, the Natural Science Foundation from Jiangsu Province of China (BK20141441), from 2014-07 to 2017-06.
  2. “The quantum size effect and superconductivity of ultrathin superconducting film”, the Natural Science Foundation from Jiangsu Education Office of China (09KJB140004), from 2009-09 to 2011-12
  3. “The superconductivity of novel superconducting materials by first-principles calculations”,the National Natural Science Foundation of China (10447115), from 2005-01 to 2005-12
  4. “The quantum size effect on ultrathin metallic films”, the Natural Science Foundation from Jiangsu Education Office of China (03KJB140061), from 2003-09 to 2005-12

Journal Articles

  1. “Desorption of atoms and excimers upon self-trapping of excitons in rare gas solids”, L.F.Chen, G.Q.Huang, K.S.Song, Nuclear Instruments and Methods in Physics Research B 116, 61-65 (1996)
  2. “Excitonic instability and desorption of F atom near the (111) surface in CaF2, SrF2, BaF2“, G. Q. Huang, L.F.Chen, Nuclear Instruments and Methods in Physics Research B 152,   232-240 (1999)
  3. “Crossover from 3D to 2D in the electronic structure of MgB2-type systems”, G. Q. Huang, M. Liu, L. F. Chen,  International Journal of Modern Physics B 16, 3671-3680 (2002)
  4. "Quantum size effects in free-standing MgB2 films", G.Q. Huang, M. Liu, L.F. Chen, D.Y. Xing, Phys. Lett. A. 314, 109-116 ( 2003)  
  5. "Intrinsic defects in KMgF3: the ab initio and the extended-ion study",G.Q. Huang, L.F. Chen, M. Liu, D.Y. Xing, J. Phys. : Cond. Matt. 15,  4567-4576 (2003)  
  6. "Electronic Structure and Electron-Phonon Interaction in Ternary Silicides M-AlSi(M=Ca, Sr and Ba", G.Q. Huang,  L.F. Chen, M. Liu, D.Y. Xing,  Phys.  Rev. B, 69,064509 (2004) 
  7. “First-principles calculation of superconductivity in pseudo-ternary silicides MGaSi (M =Ca, Sr and Ba)”,G.Q. Huang,  M. Liu, L.F. Chen, D.Y. Xing, Physica C,423,9-14 (2005)  
  8. “First-principles calculations of pressure effect on the  superconducting  CaAlSi and SrAlSi”, G.Q. Huang, L.F. Chen, M. Liu, D.Y. Xing, Phys. Rev. B,71,172506 (2005)
  9. “Electronic structure and electron–phonon interaction in CaAl2Si2”, G.Q. Huang,  M. Liu, L.F. Chen, D.Y. Xing, J. Phys. Condens, Matter, 17,7151-7157 (2005)  
  10. “Electron-Phonon interaction in Ternary Silicides MGaSi (M=Ca, Sr and Ba)”, G.Q. Huang,  L.F. Chen, Int. J. Mod. Phys. B  Vol 19,163 (2005) 
  11. “Electronic structure and transport properties of semimetal CaAl2Si2”, G.Q. Huang, Journal of Physics: Conference Series 29, 73–76 (2006)
  12. “Electron-Phonon Interaction in Disordered CaAl2-xSix Alloy”,G.Q. Huang,  L.F. Chen,Physica C,443, Issues 1-2, 77-80 (2006)
  13. “Electronic structure and electron-phonon interaction in YAl2Si2”, G.Q. Huang,, R.D. Miao, Physica B,391,174-178 (2007)
  14. “Structure and superconductivity in the ternary silicide CaAlSi“,Ma Rong, Huang Gui-qin, Liu Mei,Front. Phys. China, 2(2): 204―207 (2007)
  15. “Structure effect on the AlB2-like superconductor CaAlSi“,  R. Ma,  M. Liu, G. Q. Huang, International Journal of Modern Physics B 21, 3330-3333 (2007)
  16. “ Effect of structure on the superconductivity of CaAlSi and SrAlSi: Density functional calculations”, Physica C,R. Ma, G.Q. Huang , W. Wang , H.B. Shu , S. Liu, M. Liu, 468,2233-2240 (2008)
  17. “ Electronic structures, surface phonons, and electron-phonon interactions of Al(100) and Al(111) thin films from density functional perturbation theory”,Physical Review B,GuiQin Huang,Vol.78, No.21, 214514,2008
  18. "Spin-phonon coupling and effect of pressure in the superconductor LiFeAs: Lattice dynamics from first-principles calculations",Physical Review B,G. Q. Huang, Z. W. Xing, D. Y. Xing,Vol.82, 014511,2010
  19. "Surface lattice vibration and electron-phonon interaction in Pb (111) ultrathin superconducting films from first principles: both with and without Si substrate", Huang  G. Q., New Journal of Phys. 13,  093023 (2011),DOI:10.1088/1367-2630/13/9/093023
  20. “Surface lattice vibration and electron–phonon interaction in topological insulator Bi2Te3 (111) films  from first principles”, Huang G. Q., Europ. Phys. Lett., 100, 17001 (2012)
  21. “Magnetic behavior of Mn-doped GaN (100) film from first-principles calculations”, Huang  G. Q. and Wang J. X., J. Appl. Phys. 111, 043907 (2012)
  22. “Tunnel conductance in GaN:Mn/AlN/GaN:Mn (0001) junction from  first-principles calculations”, Chen G.W. and Huang G. Q.,  J. Appl. Phys. 112, 123711 (2012)
  23. “Atomic and electronic structure of Mn-delta doped GaN (1100)film from first-principles calculations”, Wang J. X. and Huang G. Q., Phys. Status Solidi C, 9, No. 1, 101–104 (2012)
  24. “First-principles study on the lattice dynamics of FeSb2”, Miao R.D., Huang G. Q., Fan C.H., Bai Z., Li Y.B., Wang L., Chen L.A., Song W.G., Xu Q.G.,  Solid State Commu. 152,231-234 (2012) 
  25. “Magnetic enhanced electron-phonon coupling and vacancy effect in “111”-type iron pnictides from first-principle calculations”, Li B., Xing Z. W., Huang  G. Q., and Liu M., J. Appl. Phys. 111, 033922 (2012)
  26. “Lattice dynamics and electron-phonon interaction in Bi/Bi2Te3 (111) heteroepitaxial film”, Huang G. Q.,Li B., Europ. Phys. Lett., 104,  57003 (2013)
  27. “Surface lattice dynamics and electron–phonon interaction in ultrathin Bi(111) film”, Huang G. Q.,Yang J., J. Phys.: Condens. Matter 25, 175004 (2013)
  28. “Spin-phonon coupling in the superconductor FeTe0.5Se0.5 from first-principles calculations”, Li J., Huang G. Q., Solid State Commu. 159, 45-48 (2013)
  29. “Whether FeTe is superconductor: Insights from first-principles calculations”, Li J., Huang G. Q., Zhu X. F., Physica C 492, 152–157 (2013)
  30. “Thickness evolution of phonon properties in ultrathin Bi (111) films”, Yang J., Huang G. Q.,Zhu X. F., Phys. Status Solidi B 250, No. 9, 1937–1942 (2013)
  31. “Phonon spectra and superconductivity of the BiS2-based compounds LaO1−xFxBiS2”,  Li B., Xing Z. W., Huang G. Q., Europ. Phys. Lett., , 101, 47002  (2013)
  32. “Novel structural phases andsuperconductivity of iridium tellurideunder high pressures”, Li B., Huang G. Q., Sun J., Xing Z. W., Science Reports, 4, 6433 (2014)
  33. “Phonon dynamicsin(Bi2Se3)m(Bi2)n infinitelyadaptiveseries”, Zhang J.J.,Huang G. Q.,Solid State Commu., 197,34(2014)
  34. “Prediction of superconductivity in Li-intercalated bilayer phosphorene”, Huang G. Q.,  Xing Z. W. and Xing D. Y.,Appl. Phys. Lett., 106, 113107 (2015)
  35. “Band-gap tunability and dynamicalinstability in strained monolayer and bilayerphosphorenes”, Huang G. Q., Xing Z. W., J. Phys.: Condens. Matter 27, 175006 (2015)
  36. “Topological surface states of infinitelyadaptive series (Bi2Se3)m(Bi2)n:A first-principles study”, Zhang J. J.,Liu X.,Huang G. Q., Phys. Status Solidi B 252, 2090 (2015)

Honors and Awards

  • “QingLan Gongcheng” Excellent Key Teachers of Jiangsu Province (2006)
  • “Jiaoshu Yuren” awarded by Nanjing Normal University (2007)


  • TEL:+86-25-85891951-8406