胡军:苏州大学特聘教授,江苏省特聘教授,博士生导师。2009年毕业于中国科学技术大学物理系,获凝聚态物理理学博士。2009年至2014年在加州大学尔湾分校(University of California Irvine)物理系从事博士后研究工作。2014年8月加入苏州大学物理与光电能源学部。在国际学术期刊发表论文40余篇(包括Nature Phys., Phys. Rev. Lett., Phys. Rev. X, Nano Lett., J. Am. Chem. Soc.),引用1500余次,H因子19。
利用密度泛函理论,从事磁性材料、拓扑绝缘体材料、太阳能材料等方面的理论研究,发展了用于研究磁晶各向异性、磁光相互作用、量子反常霍尔效应等一系列物理现象的方法。主要研究方向如下:
(1)磁性纳米结构的磁各向异性
(2)金属多层膜、金属/钙钛矿氧化物界面的磁性调控
(3)拓扑绝缘体的带隙及边缘态的理论设计
(4)钙钛矿太阳能电池材料的理论研究
http://www.researcherid.com/rid/H-4311-2012
https://scholar.google.com/citations?user=DzjKZm4AAAAJ&hl=en
1. X. Q. Liang, X. Wu, J. Hu*, J. J. Zhao* and X. C. Zeng*, “Largemagnetic anisotropy in chemically engineered iridium dimer”, Communications Phys. 1, 74 (2018).
2. C. Qi, L. Y. Ouyang, and J. Hu*, “Realizing robust large-gapquantum spin Hall state in 2D HgTe monolayer on insulating substrate”, 2D Mater. 5, 045012 (2018). (IF = 7.024)
3. X. X. Ma and J. Hu*, “Large PerpendicularMagnetocrystalline Anisotropy at the Fe/ Pb(001) Interface”, ACS Appl. Mater. Interfaces 10, 13181 (2018). (IF =8.097)
4. H. Wang, L. Y. Ouyang, G. F.Zou*, C. Sun, J. Hu*, X. Xiao, andL. J. Gao*, “Optimizing MoS2 Edges by Alloying Isovalent W forRobust Hydrogen Evolution Activity”, ACS Catal. 8, 9529 (2018). (IF = 11.384)
5. J. X. Qu and J. Hu*, “Engineering giant magneticanisotropy in single-molecule magnets by dimerizing heavy transition-metalatoms”, Appl. Phys. Express 11, 055201 (2018). (IF = 2.555)
6. C. Qi and J. Hu*, “Metal-to-insulator transition in two-dimensionalferromagnetic monolayer induced by substrate”, Chin. Phys. B 27, 077106(2018). (IF = 1.321)
7. J. Hu*, P. Wang, J. J. Zhao*and R. Q. Wu*, “Engineering magnetic anisotropy in two-dimensional magneticmaterials”, Advances in Physics: X 3, 1432415 (2018). (Invited review paper)
8. M. Costa, A. T. Costa, J. Hu, R. Q. Wu, and R. B. Muniz, “β-tungsten:a promising metal for spintronics”, J. Phys.: Condens. Matter 30, 305802(2018). (IF = 2.617)
9. X. F. Yang, J. Hu, R. Q. Wu, and B. E. Koel, “Balancingactivity and stability in a ternary Au-Pd/Fe electrocatalyst for ORR with highsurface coverages of Au”, ChemCatChem (2018). (IF = 4.674)
10. P. Wang, X. Jiang*, J. Hu*, and J. J. Zhao, “ChemicallyEngineering Magnetic Anisotropy of 2D Metalloporphyrin”, Adv. Sci. 4, 1700019(2017). (IF = 12.441)
11. X. X. Ma, J. Hu*, B. C. Pan*, “Invariant wide bandgaps in honeycomb monolayerand single-walled nanotubes of IIB–VI semiconductors”, Nanotechnology28, 355201(2017). (IF = 3.404)
12. S. Thomas, B. Kuiper, J. Hu, J. Smit, Z. Liao, Z. Zhong, G.Rijnders, A. Vailionis, R. Wu, G. Koster and J. Xia, “Localized Control ofCurie Temperature in Perovskite Oxide Film by Capping-Layer-Induced OctahedralDistortion”, Phys. Rev. Lett. 119, 177203 (2017). (IF = 8.839)
13. P. Wang, X. Jiang, J. Hu, X. M. Huang, J. J. Zhao and R.Ahuja, “Prediction of huge magnetic anisotropies in 5d transition metallocenes”, J.Phys.: Condens. Matter 29, 435802 (2017). (IF =2.617)
14. N. Xu, X. X. Ma, M. F. Wang, T.Qian*, J. Q. Liang, W. L. Yang, Y. Wang, J.Hu*, C. L. Yan*, “Stationary Full Li-Ion Batteries with Interlayer-ExpandedV6O13 Cathodes and Lithiated Graphite Anodes”, Electrochimica Acta 203, 171 (2016). (IF = 5.116)
15. X. Q. Liang, X. Wu, X. M.Huang, Y. Su*, J. Hu* and J. J.Zhao, “Magnetic Anisotropy of Small Irn Clusters (n = 2–5)”, J. Clust. Sci. 27, 935 (2016). (IF = 1.715)
16. P. Wang, X. Jiang, J. Hu, X. M. Huang and J. J. Zhao, “Giantmagnetic anisotropy of a 5d transition metal decorated two-dimensionalpolyphthalocyanine framework”, J. Mater. Chem. C 4, 2147 (2016). (IF = 5.976)
17. D. Ellsworth, L. Lu, J. Lan, H.Chang, P. Li, Z. Wang, J. Hu, B.Johnson, Y. Bian, J. Xiao, R. Q. Wu, and M. Z. Wu, “Photo-spin-voltaic effect”, Nat. Phys. 12, 861 (2016). (IF = 22.727)
18. J. Li, H. Wang, J. Hu, and R. Q. Wu, “Search for giantmagnetic anisotropy in transition-metal dimers on defected hexagonal boronnitride sheet”, J. Chem. Phys. 144, 204704 (2016). (IF = 2.843)
19. M. Costa, H. Wang, J. Hu, R. Q. Wu, S.-M. Na, H. Chun., A.B. Flatau, “Orientation dependences of surface morphologies and energies ofiron–gallium alloys”, Surf. Sci. 647, 26 (2016). (IF = 1.997)
20. J. Hu*, Z. Y. Zhu, and R. Q.Wu*, “Chern Half metal: A New Class of Topological Materials to Realize theQuantum Anomalous Hall Effect”. Nano. Lett.15, 2074 (2015). (IF = 12.080)
21. H.Wang, C. T. Shi, J. Hu, S. Han, C.C. Yu, and R. Q. Wu, Phys. Rev. Lett.115, 077002 (2015). (IF = 8.839)
22. J.Karel, J. Juraszek, J. Minar, C. Bordel, K. H. Stone, Y. N. Zhang, J. Hu, R. Q. Wu, H. Ebert, J. B.Kortright, and F. Hellman, “Effect of chemical order on the magnetic andelectronic properties of epitaxial off-stoichiometry FexSi1-x thin films”, Phys. Rev. B 91, 144402 (2015). (IF = 3.813)
23. J. Li, J. Hu, H. Wang, and R. Q. Wu, “Rhenium-phthalocyaninemolecular nanojunction with high magnetic anisotropy and high spin filteringefficiency”, Appl. Phys. Lett. 107, 032404 (2015). (IF = 3.495)
24. A.Kabir, J. Hu, V. Turkowski, R. Q.Wu, R. Camley, and T. S. Rahman, “Effect of structure on the magneticanisotropy of L10 FePt nanoparticles”, Phys. Rev. B 92, 054424 (2015).(IF = 3.813)
25. X.Zhou, L. Ma, Z. Shi, G. Y. Guo, J. Hu,R. Q. Wu, and S. M. Zhou, “Tuning magnetotransport in PdPt/Y3Fe5O12: Effects ofmagnetic proximity and spin- orbit coupling”, Appl. Phys. Lett. 105,012408 (2014). (IF = 3.495)
26. L. Ma, J. Hu, M. Costa, Z. Shi, J. Li, X.G. Xu, Y. Jiang, G. Y. Guo, R. Q. Wu, and S. M. Zhou, “Magneto-optical Kerreffect in L10 FePdPt ternary alloys: Experiments and first-principlescalculations”. J. Appl. Phys. 115, 183903 (2014). (IF = 2.176)
27. J. Hu and R. Q. Wu, “Giantmagnetic anisotropy of transition-metal dimers on defected graphene”. Nano Lett. 14, 1853 (2014). (IF = 12.080)
28. J.Karel, Y. N. Zhang, C. Bordel, K. Stone, T. Y. Chen, C. Jenkins, D. Smith, J. Hu, R. Q. Wu, S. Heald, J.Kortright, and F. Hellman, “Using structural disorder to enhance the magnetismand spin-polarization in FexSi1-xthin films forspintronics”. Mater. Res. Express 1,026102 (2014).
29. L.Yang, H. Y. He, J. Hu, and B. C. Pan,“Strain-induced phase transition of a C58 solid”. Phys. Chem. Chem. Phys. 16, 25176 (2014).
30. P. V. Ong, N. Kioussis, P. K. Amiri, J. GAlzate, K. L. Wang, G. P. Carman, J. Hu,and R. Q. Wu, “Electric field control and effect of Pd capping onmagnetocrystalline anisotropy in FePd thin films: A first-principles study”. Phys. Rev. B 89, 094422 (2014).
31. J. Hu andR. Q. Wu, “Control of the Magnetism and Magnetic Anisotropy of aSingle-Molecule Magnet with an Electric Field”. Phys. Rev. Lett. 110, 097202 (2013).
32. D. Qu,S. Y. Huang, J. Hu, R. Q. Wu, and C.L. Chien, “Intrinsic Spin Seebeck Effect in Au/YIG”. Phys. Rev. Lett. 110,067206 (2013).
33. J. Hu, J. Alicea, M. Franz,and R. Q. Wu, “Giant topological insulator gap in graphene with 5d adatoms”. Phys. Rev. Lett. 109, 226801 (2012).
34. J. Hu, Y. N. Zhang, M. Law,and R. Q. Wu, “Increasing the Band Gap of Iron Pyrite by Alloying with Oxygen”. J. Am. Chem. Soc. 134, 13216 (2012).
35. J. Hu, Y. N. Zhang, M. Law,and R. Q. Wu, “First-principles studies of the electronic properties of nativeand substitutional anionic defects in bulk iron pyrite”. Phys. Rev. B 85, 085203(2012).
36. W. D.Xing, J. Hu, S. C. Kung, K. C.Donavan, W. B. Yan, R. Q. Wu, and R. M. Penner, “A Chemically-ResponsiveNanojunction within a Silver Nanowire”. Nano Lett. 12, 1729 (2012).
37. S. G.Choi, J. Hu, L. S. Abdallah, M.Limpinsel, Y. N. Zhang, S. Zollner, R. Q. Wu, and M. Law, “Pseudodielectricfunction and critical-point energies of iron pyrite”. Phys. Rev. B 86, 115207(2012).
38. Y. N.Zhang, J. Hu, M. Law, and R. Q. Wu,“Effect of surface stoichiometry on the band gap of the pyrite FeS2(100)surface”. Phys. Rev. B 85, 085314 (2012).
39. H. Y.He, J. Hu, and B. C. Pan,“Theoretical study on the interaction of p-type impurities with hydrogen inZnO”, Scientia Sinica Physica, Mechanica & Astronomica 42, 1124(2012).
40. C.Weeks, J. Hu, J. Alicea, M. Franz,and R. Q. Wu, “Engineering a Robust Quantum Spin Hall State in Graphene viaAdatom Deposition”. Phys. Rev. X 1, 021001 (2011).
41. X. F.Yang, J. Hu, J. Fu, R. Q. Wu, and B.E. Koel, “Role of Surface Iron in Enhanced Activity for the Oxygen ReductionReaction on a Pd3Fe(111) Single-Crystal Alloy”. Angew. Chem. Int. Ed. 50, 10182 (2011).
42. Z. Y.Li, Z. Q. Yang, S. Qiao, J. Hu, andR. Q. Wu, “Spin-orbit splitting in graphene on metallic substrates”. J. Phys.: Condens. Matter 23,225502 (2011).
43. J.-S.Lee, J. T. Sadowski, H. Jang, J.-H. Park, J.-Y. Kim, J. Hu, R. Q. Wu, and C.-C. Kao, “Interfacial nanostructure inducedspin-reorientation transition in Ni/Fe/Ni/W(110)”. Phys. Rev. B 83, 144420(2011).
44. D. D.Li, J. Hu, R. Q. Wu, and J. G. Lu,“Conductometric chemical sensor based on individual CuO nanowires”. Nanotechnology 21, 485502 (2010).
45. J. Hu, D. D. Li, J. G. Lu,and R. Q. Wu, “Effects on Electronic Properties of Molecule Adsorption on CuOSurfaces and Nanowires”. J. Phys. Chem. C 114, 17120 (2010).
46. X. F.Yang, J. Hu, R. Q. Wu, and B. E.Koel, “Formation of Pd Monomers and Dimers on a Single-Crystal Pd3Fe(111)Surface”. J. Phys. Chem. Lett. 1, 2493 (2010).
47. L. J.Sun, J. Hu, H. Y. He, X. P. Wu, X.Q. Xu, B. X. Lin, Z. X. Fu, and B. C. Pan, “Effects of S incorporation on Agsubstitutional acceptors in ZnO:(Ag,S) thin films”. Solid State Commu. 149,1663 (2009).
48. H. Y.He, J. Hu, and B. C. Pan,Hydrogen in Ag-doped ZnO: Theoretical calculations. J. Chem. Phys. 130, 204516 (2009).
49. J. Hu and B. C. Pan,The optical and vibrational properties of dominant defects in undopedZnO: A first-principles study”. J. Appl. Phys. 105, 083710 (2009).
50. J. Hu, H. Y. He, and B. C.Pan, Theoretical study of H diffusion behavior and the vibrationalproperties of Li-H complexes in ZnO. J. Phys. Chem. C 113, 11381 (2009).
51. J. Hu and B. C. Pan,Surface effect on the size- and orientation-dependent elastic propertiesof single-crystal ZnO nanostructures. J. Appl. Phys. 105, 034302 (2009); Virtual J. Nanoscale Sci. & Technol. 19, 7 (2009).
52. J. Hu and B. C. Pan,Electronic structures of defects in ZnO: Hybrid density functionalstudies. J. Chem. Phys. 129,154706 (2008).
53. J. Hu and B. C. Pan,Formation and Dissociation of a Cu-H Complex in ZnO. J. Phys. Chem. C 112, 19142(2008).
54. J. Hu, H. Y. He, and B. C.Pan, Hydrogen diffusion behavior in N doped ZnO: First-principlesstudy. J. Appl. Phys. 103,113706 (2008).
55. J. Hu, X. W. Liu, and B. C.Pan, A study of the size-dependent elastic properties of ZnO nanowiresand nanotubes. Nanotechnology 19, 285710 (2008).
56. X. W.Liu, J. Hu, and B. C. Pan, Thecomposition-dependent mechanical properties of Ge/Si core–shellnanowires. Physica E 40, 3042(2008).
胡军:苏州大学特聘教授,江苏省特聘教授,博士生导师。2009年毕业于中国科学技术大学物理系,获凝聚态物理理学博士。2009年至2014年在加州大学尔湾分校(University of California Irvine)物理系从事博士后研究工作。2014年8月加入苏州大学物理与光电能源学部。在国际学术期刊发表论文40余篇(包括Nature Phys., Phys. Rev. Lett., Phys. Rev. X, Nano Lett., J. Am. Chem. Soc.),引用1500余次,H因子19。
利用密度泛函理论,从事磁性材料、拓扑绝缘体材料、太阳能材料等方面的理论研究,发展了用于研究磁晶各向异性、磁光相互作用、量子反常霍尔效应等一系列物理现象的方法。主要研究方向如下:
(1)磁性纳米结构的磁各向异性
(2)金属多层膜、金属/钙钛矿氧化物界面的磁性调控
(3)拓扑绝缘体的带隙及边缘态的理论设计
(4)钙钛矿太阳能电池材料的理论研究
http://www.researcherid.com/rid/H-4311-2012
https://scholar.google.com/citations?user=DzjKZm4AAAAJ&hl=en
1. X. Q. Liang, X. Wu, J. Hu*, J. J. Zhao* and X. C. Zeng*, “Largemagnetic anisotropy in chemically engineered iridium dimer”, Communications Phys. 1, 74 (2018).
2. C. Qi, L. Y. Ouyang, and J. Hu*, “Realizing robust large-gapquantum spin Hall state in 2D HgTe monolayer on insulating substrate”, 2D Mater. 5, 045012 (2018). (IF = 7.024)
3. X. X. Ma and J. Hu*, “Large PerpendicularMagnetocrystalline Anisotropy at the Fe/ Pb(001) Interface”, ACS Appl. Mater. Interfaces 10, 13181 (2018). (IF =8.097)
4. H. Wang, L. Y. Ouyang, G. F.Zou*, C. Sun, J. Hu*, X. Xiao, andL. J. Gao*, “Optimizing MoS2 Edges by Alloying Isovalent W forRobust Hydrogen Evolution Activity”, ACS Catal. 8, 9529 (2018). (IF = 11.384)
5. J. X. Qu and J. Hu*, “Engineering giant magneticanisotropy in single-molecule magnets by dimerizing heavy transition-metalatoms”, Appl. Phys. Express 11, 055201 (2018). (IF = 2.555)
6. C. Qi and J. Hu*, “Metal-to-insulator transition in two-dimensionalferromagnetic monolayer induced by substrate”, Chin. Phys. B 27, 077106(2018). (IF = 1.321)
7. J. Hu*, P. Wang, J. J. Zhao*and R. Q. Wu*, “Engineering magnetic anisotropy in two-dimensional magneticmaterials”, Advances in Physics: X 3, 1432415 (2018). (Invited review paper)
8. M. Costa, A. T. Costa, J. Hu, R. Q. Wu, and R. B. Muniz, “β-tungsten:a promising metal for spintronics”, J. Phys.: Condens. Matter 30, 305802(2018). (IF = 2.617)
9. X. F. Yang, J. Hu, R. Q. Wu, and B. E. Koel, “Balancingactivity and stability in a ternary Au-Pd/Fe electrocatalyst for ORR with highsurface coverages of Au”, ChemCatChem (2018). (IF = 4.674)
10. P. Wang, X. Jiang*, J. Hu*, and J. J. Zhao, “ChemicallyEngineering Magnetic Anisotropy of 2D Metalloporphyrin”, Adv. Sci. 4, 1700019(2017). (IF = 12.441)
11. X. X. Ma, J. Hu*, B. C. Pan*, “Invariant wide bandgaps in honeycomb monolayerand single-walled nanotubes of IIB–VI semiconductors”, Nanotechnology28, 355201(2017). (IF = 3.404)
12. S. Thomas, B. Kuiper, J. Hu, J. Smit, Z. Liao, Z. Zhong, G.Rijnders, A. Vailionis, R. Wu, G. Koster and J. Xia, “Localized Control ofCurie Temperature in Perovskite Oxide Film by Capping-Layer-Induced OctahedralDistortion”, Phys. Rev. Lett. 119, 177203 (2017). (IF = 8.839)
13. P. Wang, X. Jiang, J. Hu, X. M. Huang, J. J. Zhao and R.Ahuja, “Prediction of huge magnetic anisotropies in 5d transition metallocenes”, J.Phys.: Condens. Matter 29, 435802 (2017). (IF =2.617)
14. N. Xu, X. X. Ma, M. F. Wang, T.Qian*, J. Q. Liang, W. L. Yang, Y. Wang, J.Hu*, C. L. Yan*, “Stationary Full Li-Ion Batteries with Interlayer-ExpandedV6O13 Cathodes and Lithiated Graphite Anodes”, Electrochimica Acta 203, 171 (2016). (IF = 5.116)
15. X. Q. Liang, X. Wu, X. M.Huang, Y. Su*, J. Hu* and J. J.Zhao, “Magnetic Anisotropy of Small Irn Clusters (n = 2–5)”, J. Clust. Sci. 27, 935 (2016). (IF = 1.715)
16. P. Wang, X. Jiang, J. Hu, X. M. Huang and J. J. Zhao, “Giantmagnetic anisotropy of a 5d transition metal decorated two-dimensionalpolyphthalocyanine framework”, J. Mater. Chem. C 4, 2147 (2016). (IF = 5.976)
17. D. Ellsworth, L. Lu, J. Lan, H.Chang, P. Li, Z. Wang, J. Hu, B.Johnson, Y. Bian, J. Xiao, R. Q. Wu, and M. Z. Wu, “Photo-spin-voltaic effect”, Nat. Phys. 12, 861 (2016). (IF = 22.727)
18. J. Li, H. Wang, J. Hu, and R. Q. Wu, “Search for giantmagnetic anisotropy in transition-metal dimers on defected hexagonal boronnitride sheet”, J. Chem. Phys. 144, 204704 (2016). (IF = 2.843)
19. M. Costa, H. Wang, J. Hu, R. Q. Wu, S.-M. Na, H. Chun., A.B. Flatau, “Orientation dependences of surface morphologies and energies ofiron–gallium alloys”, Surf. Sci. 647, 26 (2016). (IF = 1.997)
20. J. Hu*, Z. Y. Zhu, and R. Q.Wu*, “Chern Half metal: A New Class of Topological Materials to Realize theQuantum Anomalous Hall Effect”. Nano. Lett.15, 2074 (2015). (IF = 12.080)
21. H.Wang, C. T. Shi, J. Hu, S. Han, C.C. Yu, and R. Q. Wu, Phys. Rev. Lett.115, 077002 (2015). (IF = 8.839)
22. J.Karel, J. Juraszek, J. Minar, C. Bordel, K. H. Stone, Y. N. Zhang, J. Hu, R. Q. Wu, H. Ebert, J. B.Kortright, and F. Hellman, “Effect of chemical order on the magnetic andelectronic properties of epitaxial off-stoichiometry FexSi1-x thin films”, Phys. Rev. B 91, 144402 (2015). (IF = 3.813)
23. J. Li, J. Hu, H. Wang, and R. Q. Wu, “Rhenium-phthalocyaninemolecular nanojunction with high magnetic anisotropy and high spin filteringefficiency”, Appl. Phys. Lett. 107, 032404 (2015). (IF = 3.495)
24. A.Kabir, J. Hu, V. Turkowski, R. Q.Wu, R. Camley, and T. S. Rahman, “Effect of structure on the magneticanisotropy of L10 FePt nanoparticles”, Phys. Rev. B 92, 054424 (2015).(IF = 3.813)
25. X.Zhou, L. Ma, Z. Shi, G. Y. Guo, J. Hu,R. Q. Wu, and S. M. Zhou, “Tuning magnetotransport in PdPt/Y3Fe5O12: Effects ofmagnetic proximity and spin- orbit coupling”, Appl. Phys. Lett. 105,012408 (2014). (IF = 3.495)
26. L. Ma, J. Hu, M. Costa, Z. Shi, J. Li, X.G. Xu, Y. Jiang, G. Y. Guo, R. Q. Wu, and S. M. Zhou, “Magneto-optical Kerreffect in L10 FePdPt ternary alloys: Experiments and first-principlescalculations”. J. Appl. Phys. 115, 183903 (2014). (IF = 2.176)
27. J. Hu and R. Q. Wu, “Giantmagnetic anisotropy of transition-metal dimers on defected graphene”. Nano Lett. 14, 1853 (2014). (IF = 12.080)
28. J.Karel, Y. N. Zhang, C. Bordel, K. Stone, T. Y. Chen, C. Jenkins, D. Smith, J. Hu, R. Q. Wu, S. Heald, J.Kortright, and F. Hellman, “Using structural disorder to enhance the magnetismand spin-polarization in FexSi1-xthin films forspintronics”. Mater. Res. Express 1,026102 (2014).
29. L.Yang, H. Y. He, J. Hu, and B. C. Pan,“Strain-induced phase transition of a C58 solid”. Phys. Chem. Chem. Phys. 16, 25176 (2014).
30. P. V. Ong, N. Kioussis, P. K. Amiri, J. GAlzate, K. L. Wang, G. P. Carman, J. Hu,and R. Q. Wu, “Electric field control and effect of Pd capping onmagnetocrystalline anisotropy in FePd thin films: A first-principles study”. Phys. Rev. B 89, 094422 (2014).
31. J. Hu andR. Q. Wu, “Control of the Magnetism and Magnetic Anisotropy of aSingle-Molecule Magnet with an Electric Field”. Phys. Rev. Lett. 110, 097202 (2013).
32. D. Qu,S. Y. Huang, J. Hu, R. Q. Wu, and C.L. Chien, “Intrinsic Spin Seebeck Effect in Au/YIG”. Phys. Rev. Lett. 110,067206 (2013).
33. J. Hu, J. Alicea, M. Franz,and R. Q. Wu, “Giant topological insulator gap in graphene with 5d adatoms”. Phys. Rev. Lett. 109, 226801 (2012).
34. J. Hu, Y. N. Zhang, M. Law,and R. Q. Wu, “Increasing the Band Gap of Iron Pyrite by Alloying with Oxygen”. J. Am. Chem. Soc. 134, 13216 (2012).
35. J. Hu, Y. N. Zhang, M. Law,and R. Q. Wu, “First-principles studies of the electronic properties of nativeand substitutional anionic defects in bulk iron pyrite”. Phys. Rev. B 85, 085203(2012).
36. W. D.Xing, J. Hu, S. C. Kung, K. C.Donavan, W. B. Yan, R. Q. Wu, and R. M. Penner, “A Chemically-ResponsiveNanojunction within a Silver Nanowire”. Nano Lett. 12, 1729 (2012).
37. S. G.Choi, J. Hu, L. S. Abdallah, M.Limpinsel, Y. N. Zhang, S. Zollner, R. Q. Wu, and M. Law, “Pseudodielectricfunction and critical-point energies of iron pyrite”. Phys. Rev. B 86, 115207(2012).
38. Y. N.Zhang, J. Hu, M. Law, and R. Q. Wu,“Effect of surface stoichiometry on the band gap of the pyrite FeS2(100)surface”. Phys. Rev. B 85, 085314 (2012).
39. H. Y.He, J. Hu, and B. C. Pan,“Theoretical study on the interaction of p-type impurities with hydrogen inZnO”, Scientia Sinica Physica, Mechanica & Astronomica 42, 1124(2012).
40. C.Weeks, J. Hu, J. Alicea, M. Franz,and R. Q. Wu, “Engineering a Robust Quantum Spin Hall State in Graphene viaAdatom Deposition”. Phys. Rev. X 1, 021001 (2011).
41. X. F.Yang, J. Hu, J. Fu, R. Q. Wu, and B.E. Koel, “Role of Surface Iron in Enhanced Activity for the Oxygen ReductionReaction on a Pd3Fe(111) Single-Crystal Alloy”. Angew. Chem. Int. Ed. 50, 10182 (2011).
42. Z. Y.Li, Z. Q. Yang, S. Qiao, J. Hu, andR. Q. Wu, “Spin-orbit splitting in graphene on metallic substrates”. J. Phys.: Condens. Matter 23,225502 (2011).
43. J.-S.Lee, J. T. Sadowski, H. Jang, J.-H. Park, J.-Y. Kim, J. Hu, R. Q. Wu, and C.-C. Kao, “Interfacial nanostructure inducedspin-reorientation transition in Ni/Fe/Ni/W(110)”. Phys. Rev. B 83, 144420(2011).
44. D. D.Li, J. Hu, R. Q. Wu, and J. G. Lu,“Conductometric chemical sensor based on individual CuO nanowires”. Nanotechnology 21, 485502 (2010).
45. J. Hu, D. D. Li, J. G. Lu,and R. Q. Wu, “Effects on Electronic Properties of Molecule Adsorption on CuOSurfaces and Nanowires”. J. Phys. Chem. C 114, 17120 (2010).
46. X. F.Yang, J. Hu, R. Q. Wu, and B. E.Koel, “Formation of Pd Monomers and Dimers on a Single-Crystal Pd3Fe(111)Surface”. J. Phys. Chem. Lett. 1, 2493 (2010).
47. L. J.Sun, J. Hu, H. Y. He, X. P. Wu, X.Q. Xu, B. X. Lin, Z. X. Fu, and B. C. Pan, “Effects of S incorporation on Agsubstitutional acceptors in ZnO:(Ag,S) thin films”. Solid State Commu. 149,1663 (2009).
48. H. Y.He, J. Hu, and B. C. Pan,Hydrogen in Ag-doped ZnO: Theoretical calculations. J. Chem. Phys. 130, 204516 (2009).
49. J. Hu and B. C. Pan,The optical and vibrational properties of dominant defects in undopedZnO: A first-principles study”. J. Appl. Phys. 105, 083710 (2009).
50. J. Hu, H. Y. He, and B. C.Pan, Theoretical study of H diffusion behavior and the vibrationalproperties of Li-H complexes in ZnO. J. Phys. Chem. C 113, 11381 (2009).
51. J. Hu and B. C. Pan,Surface effect on the size- and orientation-dependent elastic propertiesof single-crystal ZnO nanostructures. J. Appl. Phys. 105, 034302 (2009); Virtual J. Nanoscale Sci. & Technol. 19, 7 (2009).
52. J. Hu and B. C. Pan,Electronic structures of defects in ZnO: Hybrid density functionalstudies. J. Chem. Phys. 129,154706 (2008).
53. J. Hu and B. C. Pan,Formation and Dissociation of a Cu-H Complex in ZnO. J. Phys. Chem. C 112, 19142(2008).
54. J. Hu, H. Y. He, and B. C.Pan, Hydrogen diffusion behavior in N doped ZnO: First-principlesstudy. J. Appl. Phys. 103,113706 (2008).
55. J. Hu, X. W. Liu, and B. C.Pan, A study of the size-dependent elastic properties of ZnO nanowiresand nanotubes. Nanotechnology 19, 285710 (2008).
56. X. W.Liu, J. Hu, and B. C. Pan, Thecomposition-dependent mechanical properties of Ge/Si core–shellnanowires. Physica E 40, 3042(2008).