Full Publication List

2021

100)  M.R.U. Nabi, A. Wegner, F. Wang, Y. Zhu, Y. Guan, A. Fereidouni, K. Pandey, R. Basnet, G. Acharya, H.O.H. Churchill, Z. Mao, and J. Hu, “Giant topological Hall effect in centrosymmetric tetragonal Mn2-xZnxSb”, Physical Review B, accepted

99)  Z. Ye, W. Peng, F. Wang, A. Balodhi, R. Basnet, J. Hu, A. Zevalkink, J. Wang, “Quasi-layered Crystal Structure Coupled with Point Defects Leading to Ultralow Lattice Thermal Conductivity in n-type Cu2.83Bi10Se16”, ACS Applied Energy Materials, 4, 11325 (2021)

98)  K. Pandey, D. Mondal, J. W. Villanova, J. Roll, R. Basnet, A. Wegner, G. Acharya, M. R. U. Nabi, B. Ghosh, Jun Fujii, J. Wang, B. Da, A. Agarwal, I. Vobornik, A. Politano, S. Barraza-Lopez, and J. Hu, “Magnetic Topological Semimetal Phase with Electronic Correlation Enhancement in SmSbTe”, Advanced Quantum Technologies, 10, 2100063 (2021) [featured as cover article]

97)  R. Basnet, T. T. McCarthy, Z. Ju, Y. -H. Zhang, S. -Q. Yu and J. Hu, “Electronic Properties of Group-IV SnGe alloy topological quantum materials”, 2021 IEEE Photonics Society Summer Topicals Meeting Series (SUM)

96)  B. Ji, K. Pandey, C.P. Harmer, F. Wang, K. Wu, J. Hu, J. Wang, “Centrosymmetric or Noncentrosymmetric? Transition Metals Talking in K2TGe3S8(T=Co, Fe)” Inorganic Chemistry, 60, 10603 (2021)

95)  S. H. Lee, D. Graf, L. Min, Y. Zhu, H. Yi, S. Ciocys, Y. Wang, E. S. Choi, R. Basnet, A. Fereidouni, A. Wegner, Y.-F. Zhao, K. Verlinde, J. He, D. Graf, R. Redwing, V. Gopalan, H. O. H. Churchill, A. Lanzara, N. Samarth, C.-Z. Chang, J. Hu, and Z.Q. Mao, “Evidence for a Magnetic-Field induced Ideal Type-II Weyl State in Antiferromagnetic Topological Insulator Mn(Bi1-xSbx)2Te4” Physical Review X, 11, 031032 (2021)

94)  R. Basnet, A. Wegner, K. Pandey, S. Storment, J. Hu, “Highly sensitive spin-flop transition in antiferromagnetic van-der Waals material MPS3 (M = Ni and Mn)” Physical Review Materials, 5, 064413 (2021)

93)  J.Y. Liu, J.B. Yu, J.L. Ning, L.X. Miao, A. Kleyser, L.J. Min, Y.L. Zhu, H.M. Yi, T. Pillsbury, Y. B. Zhang, Y. Wang, J. Hu, H.B. Cao, F. Balakirev, F. Weickert, M. Jaime, K. Yang, J.W. Sun, N. Alem, V. Gopalan, C.Z. Chang, N. Samarth, J. Jain, C.X. Liu, R.D. Mcdonald and Z.Q. Mao, “Spin-valley locking and bulk quantum Hall effect in a noncentrosymmetric Dirac semimetal BaMnSb2” Nature Communications, 12, 4062 (2021)

92)  X. Liu, C. Yue, S.V. Erohin, Y. Zhu, A. Joshy, J. Liu, A. M. Sanchez, D. Graf, P.B. Sorokin, Z. Mao, J. Hu, J. Wei, “Quantum transport of the 2D surface state in a nonsymmorphic semimetal” Nano Letters, 21, 4887 (2021) [featured as cover article]

91)  Q. Wan, T. Y. Yang, S. Li, M. Yang, Z. Zhu, C. L. Wu, C. Peng, S. K. Mo, W. K. Wu, Z. H. Chen, Y. B. Huang, L. L. Lev, V. N. Strocov, J. Hu, Z. Q. Mao, Hao Zheng, J. F. Jia, Y. G. Shi, Shengyuan A. Yang, and N. Xu, “Inherited weak topological insulator signatures in the topological hourglass semimetal Nb3XTe6 (X = Si, Ge)” Physical Review B, 103, 165107 (2021)

90)  Y. Yang, H. Xing, G. Tang, C. Hua, C. Yao, X. Yan, Y. Lu, J. Hu, Z. Mao, and Y. Liu, “Anisotropic Berry phase in the Dirac nodal-line semimetal ZrSiS: The effect of spin-orbit coupling” Physical Review B, 103, 125160 (2021)

89)  Yanglin Zhu, Jin Hu, David Graf, Xin Gui, Weiwei Xie, and Zhiqiang Mao, “Quasi-two-dimensional relativistic fermions probed by de Haas–van Alphen quantum oscillations in LuSn2” Physical Review B, 103, 125109 (2021)

88)  L. H. Yang, B. Da, H. Yoshikawa, S. Tanuma, J. Hu, J. W. Liu, D. M. Tang, and Z. J. Ding, “Low-energy electron inelastic mean free path and elastic mean free path of graphene” Applied Physics Letters, 118, 053104 (2021)

2020.

87)  Y. Wang, J. Balgley, E. Gerber, M. Gray, N. Kumar, X. Lu, J.-Q. Yan, A. Fereidouni, R. Basnet, S. J. Yun, D. Suri, H. Kitadai, T. Taniguchi, K. Watanabe, X. Ling, J. Moodera, Y. H. Lee, H. O. H. Churchill, J. Hu, L. Yang, E.-A. Kim, D. G. Mandrus, E. A. Henriksen, and K. S. Burch, Nano Letters, 20, 8446 (2020)

86)  Y. Wu, S. Zhang, J. Zhang, W. Wang, Y.L. Zhu, J. Hu, G. Yin, K. Wong, C. Fang, C. Wan, X. Han, Q. Shao, T. Taniguchi, K. Watanabe, J. Zang, Z. Mao, X. Zhang, and K.L. Wang, Nature Communications, 11, 3860 (2020)

85)  A. McCreary, T. Mai, F. Utermohlen, J. Simpson, K. Garrity, X. Feng, D. Shcherbakov, Y. Zhu, J. Hu, D. Weber, T. Taniguchi, J. Goldberger, Z. Mao, C. N. Lau, Y. Lu, N. Trivedi, R. Valdés Aguilar, and A. R. Hight Walker, Nature Communications, 11, 3879 (2020)

84)  K. Pandey, R. Basnet, A. Wegner, G. Acharya, M. R. U. Nabi, J. Liu, J. Wang, Y. Takahashi, B. Da, and J. Hu, Physical Review B, 101, 235161 (2020)

83)  S. Davari, J. Stacy, A. M. Mercado, J. D. Tull, R. Basnet, K. Pandey, J. Hu, and H. O. H. Churchill,  Physical Review Applied, 13, 054058 (2020)

82)  B. Da, Y. Sun, Z. Hou, J. Liu, N.T. Cuong, K. Tsukagoshi, H. Yoshikawa, S. Tanuma, J. Hu, Z. Gao, Z. Ding, Physical Review Applied, 13, 044055 (2020)

81)  Y. Shao, A. N. Rudenko, J. Hu, Z. Sun, Y. Zhu, S. Moon, A. J. Millis, S. Yuan, A. I. Lichtenstein, D. Smirnov, Z. Q. Mao, M. I. Katsnelson and D. N. Basov, Nature Physics, 16, 636 (2020)

80)  M. Krottenmüller, M. Vöst, N. Unglert, J. Ebad-Allah, G. Eickerling, D. Volkmer, J. Hu, Y. L. Zhu, Z. Mao, W. Scherer, and C. A. Kuntscher, Physical Review B, 101, 081108(R) (2020)

79)  Y. Zhu, X. Gui, Y. Wang, D. Graf, W. Xie, J. Hu, Z. Mao, Physical Review B, 101, 035133 (2020)

78)  T. Y. Yang, Q. Wan, D. Y. Yan, Z. Zhu, Z. W. Wang, C. Peng, Y. B. Huang, R. Yu, J. Hu, Z. Q. Mao, S. Li, S.A. Yang, H. Zheng, J.-F. Jia, Y.G. Shi, and N. Xu, Nature Materials, 19, 27 (2020)

2019

.

77)  C. C. Gu†, J. Hu†, X. L. Chen, Z. P. Guo, B. T. Fu, Y. H. Zhou, C. An, Y. Zhou, R. R. Zhang, C. Y. Xi, Q. Y. Gu, C. Park, H. Y. Shu, W. G. Yang, L. Pi, Y. H. Zhang, Y. G. Yao, Z. R. Yang, J. H. Zhou, J. Sun, Z. Q. Mao, and M. L. Tian, Physical Review B, 100, 205124 (2019)

76)  R. Basnet, M. H. Doha, T. Hironaka, K. Pandey, S. Davari, K.M. Welch, H. O. H. Churchill*, J. Hu*, Crystals, 9, 486 (2019)

75)  B. Da, J. Liu, Y. Harada, N. Cuong, K. Tsukagoshi, J. Hu, Z. Ding, L. Yang, H. Yoshikawa, S. Tanuma. Journal of Physical Chemistry Letters, 10, 5770 (2019)

74)  W. Gao, X. Zhu, J. Hu, F. Zheng, H. Zhang, M. Wu, G. Zheng, N. Hao, P. Zhang, W. Ning, M. Tian, Science Bulletin, 64, 1496-1501 (2019)

73)  D.W. Tam, H.-H. Lai, J. Hu, X. Lu, H.C. Walker, D.L. Abernathy, J.L. Niedziela, T. Weber, M. Enderle, Y. Su, Z.Q. Mao, Q. Si, and P. Dai, Physical Review B, 100, 054405 (2019)

72)  S. H. Lee, Y. Zhu, Y. Wang, L. Miao, H. Yi, T. Pillsbury, S. Kempinger, J. Hu, C.A. Heikes, P.A. Quarterman, W. Ratcliff, J.A. Borchers, H. Zhang, X. Ke, D. Graf, N. Alem, C-Z Chang, N. Samarth and Z. Mao, Physical Review Research, 1, 012011(R) (2019)

71)  J. Ebad-Allah, M. Krottenmüller, J. Hu, Y. L. Zhu, Z. Q. Mao, and C. A. Kuntscher, Physical Review B, 99, 245133 (2019)

70)   J. Hu, S. Y. Xu, N. N, and Z. Mao, Annual Review of Materials Research 100, 054405 (2019) [invited review]

69)   Y. Zhu, J. Hu, F. N. Womack, D. Graf, P.W. Adams and Z. Mao, Journal of Physics: Condensed Matter, 31, 245703 (2019)

68)   J. Ebad-Allah, J. Fernandez Afonso, M. Krottenmuller, J. Hu, Y. L. Zhu, Z. Mao, J. Kunes and C. A. Kuntscher, Physical Review B, 99, 125154 (2019)

67)   D.W. Boukhvalov, R. Edla, A. Cupolillo, V. Fabio, R. Sankar, Y. Zhu, Z. Mao, J. Hu, P. Torelli, G. Chiarello, L. Ottaviano, A. Politano, Advanced Functional Materials, 29, 1900438 (2019)

66)   Josh P. Thompson, M. Hasan Doha, Peter Murphy, Jin Hu, Hugh O. H. Churchill, Journal of Visualized Experiments, 143, e58693 (2019)

65)   M. Pan, H. Yuan, X. Zhou, Y. Cao, Q. Bian, Z. Zhang, H. Sun, S. Li, Z. Shao, J. Hu, Y. Zhu, Z. Mao, and W. Ji, npj 2D Materials and Applications, 3, 12 (2019)

2018

64)   Juanjuan Liu, A. T. Savici, G. E. Granroth, K. Habicht, Y. Qiu, Jin Hu, Z. Q. Mao, Wei Bao, Chinese Physics Letters 35, 127401 (2018)

63)   Yanglin Zhu, Tiantian Zhang, Jin Hu, Jamin Kidd, David Graf, Xin Gui, Weiwei Xie, Mengze Zhu, Xianglin Ke, Huibo Cao, Zhong Fang, Hongming Weng* and Zhiqiang Mao, Physical Review B, 98, 035117 (2018)

62)   Giuseppe Nicotra, Edo van Veen, Ioannis Deretsis, Lin Wang, Jin Hu, Zhiqiang Mao, Vito Fabio, Corrado Spinella, Gennaro Chiarello, Alexander Rudenko, Shengjun Yuan, Antonio Politano, Nanoscale, 10, 21918-21927 (2018)

61)   Linlin An, Hongwei Zhang, Jin Hu, Xiangde Zhu, Wenshuai Gao, Jinglei Zhang, Chuanying Xi, Wei Ning, Zhiqiang Mao, and Mingliang Tian, Physical Review B, 97, 235133 (2018)

60)   Davide Iaia, Guoqing Chang, Tay-Rong Chang, Jin Hu, Zhiqiang Mao, Hsin Lin, Shichao Yan, Vidya Madhavan. npj Quantum Materials, 3, 38 (2018)

59)   T. -W. Hsieh, T. Zou, J. Hu, Z. Q. Mao, P. P. Zhang, and X. Ke, Journal of Physics: Condensed Matter, 30, 295303 (2018)

58)   Shcherbakov, Dmitry; Stepanov, Petr; Weber, Daniel; Watanabe, Kenji; Taniguchi, Takashi; Hu, Jin; Zhu, Yanglin; Mao, Zhiqiang; Goldberger, Joshua; Bockrath, Marc; Lau, Chun Ning; Nano Letters, 18, 4214 (2018)

57)   Jin Hu, Yanglin Zhu, David Graf, Zhijie Tang, Zhiqiang Mao, Physical Review B, 97, 155101 (2018) 

56)   Fabian Arnold, Jonas Warmuth, Matteo Michiardi, Jan Fikácek, Marco Bianchi, Jin Hu, Zhiqiang Mao, Jill Miwa, Martin Bremholm, Roland Wiesendanger, Jan Honolka, Tim Wehling, Jens Wiebe, and Philip Hofmann. Journal of Physics: Condensed Matter, 30, 065502 (2018)

2009-2017.

55)   J.Y. Liu, J. Hu*, D. Graf, T. Zou, M. Zhu,Y. Shi, S. Che, S.M.A. Radmanesh, C.N. Lau, L. Spinu, H.B. Cao, X. Ke and Z.Q. Mao*, “Unusual interlayer quantum transport behavior caused by the zeroth Landau level in YbMnBi₂”, Nature Communications, 8, 646 (2017) 

54)   J.Y. Liu†, J. Hu†, Q. Zhang, D. Graf, H.B. Cao, S.M.A. Radmanesh, D.J. Adams, Y.L. Zhu, G.F. Cheng, X. Liu, W.A. Phelan, J. Wei, M. Jaime, F. Balakirev, D.A. Tennant, J.F. DiTusa, I. Chiorescu, L. Spinu, Z.Q. Mao, “A magnetic topological semimetal Sr_1-yMn_1-z Sb₂ (y, z < 0.10)”. Nature Materials, 16, 905 (2017) 

53)   Gen Long, Ting Zhang, Xiangbin Cai, Jin Hu, Chang-woo Cho, Shuigang Xu, Junying Shen, Zefei Wu, Tianyi Han, Jiangxiazi Lin, Jingwei Wang, Yuan Cai, Rolf Lortz, Zhiqiang Mao, and Ning Wang, “Isolation and Characterization of Few-Layer Manganese Thiophosphite”. ACS Nano, 11, 11330 (2017)

52)   Chenlu Wang, Yan Zhang, Jianwei Huang, Guodong Liu, Aiji Liang, Yuxiao Zhang, Bing Shen, Jing Liu, Cheng Hu, Ying Ding, Defa Liu, Yong Hu, Shaolong He, Lin Zhao, Li Yu, Jin Hu, Jiang Wei, Zhiqiang Mao, Youguo Shi, Xiaowen Jia, Fengfeng Zhang, Shenjin Zhang, Feng Yang, Zhimin Wang, Qinjun Peng, Zuyan Xu, Chuangtian Chen, X. J. Zhou, “Evidence of Electron-Hole Imbalance in WTe₂ from High-Resolution Angle-Resolved Photoemission Spectroscopy”. Chinese Physics Letters, 34, 097305 (2017)

51)   M. Einaga, K. Shimizu, J. Hu, Z.Q. Mao, and A. Politano, “Resistivity of Weyl semimetals NbP and TaP under pressure”. Physica Status Solidi (RRL), 11, 1700182 (2017)

50)   Jin Hu, Zhijie Tang, Jinyu Liu, Yanglin Zhu, Jiang Wei and Zhiqiang Mao, “Nearly massless Dirac fermions and strong Zeeman splitting in nodal-line semimetal ZrSiS probed by dHvA quantum oscillations”, Physical Review B (Editors’ suggestions), 96, 045127 (2017)

49)   Wei Ning, Fengyu Kong, Jin Hu, Yu-yan Han, Ji-Yong Yang, Hai-Feng Du, Yuheng Zhang, Mingliang Tian, “Large linear magnetoresistance in a bismuth nanoribbon”, Applied Physics Letters, 110, 123101 (2017).

48)   J. Hu, Y.L. Zhu, D. Graf, Z.J. Tang, J.Y. Liu, Z.Q. Mao, “Quantum oscillation studies of topological semimetal candidate ZrGeM (M=S, Se, Te)”. Physical Review B, 95, 205134 (2017)

47)   Torben Hänke, Udai Raj Singh, Lasse Cornils, Sujit Manna, Anand Kamlapure, Martin Bremholm, Ellen Marie Jensen Hedegaard, Bo Brummerstedt Iversen, Philip Hofmann, Jin Hu, Jens Wiebe, Zhiqiang Mao, and Roland Wiesendanger, “Reorientation of the bicollinear antiferromagnetic structure at the surface of Fe_1+yTe bulk and thin films”. Nature Communications, 8, 13939 (2017)

46)   Chenlu Wang, Yan Zhang, Jianwei Huang, Simin Nie, Guodong Liu, Aiji Liang, Yuxiao Zhang, Bing Shen, Jing Liu, Cheng Hu, Ying Ding, Defa Liu, Yong Hu, Shaolong He, Lin Zhao, Li Yu, Jin Hu, Jiang Wei, Zhiqiang Mao, Youguo Shi, Xiaowen Jia, Fengfeng Zhang, Shenjin Zhang, Feng Yang, Zhimin Wang, Qinjun Peng, Hongming Weng, Xi Dai, Zhong Fang, Zuyan Xu, Chuangtian Chen, X. J. Zhou, “Observation of Fermi arc and its connection with bulk states in the candidate type-II Weyl semimetal WTe₂”. Physical Review B, 94, 241119(R) (2016)

45)   Giuseppe Nicotra, Antonio Politano, Antonio Massimiliano Mio, Ioannis Deretsis, Jin Hu, Zhiqiang Mao, Jiang Wei, Antonino La Magna, Corrado Spinella, “Absorption edges of black phosphorus: a comparative analysis”. Physica Status Solidi B, 253, 2509 (2016)

44)   Xue Liu, Jinyu Liu, Liubov Antipina, Jin Hu, Chunlei Yue, Ana Sanchez, Pavel Sorokin, Zhiqiang Mao, Jiang Wei, “Direct Fabrication of Functional Ultrathin Single-Crystal Nanowires from Quasi-One-Dimensional van der Waals Crystals”. Nano Letters, 16, 6188 (2016)

43)   Fan Ye, Jaesung Lee, Jin Hu, Zhiqiang Mao_, Jiang Wei, Philip X.-L. Feng, “Environmental Instability and Degradation of Single- and Few-Layer WTe₂Nano sheets in Ambient Conditions”. Small, 12, 5802 (2016)

42)   Jinyu Liu, Jin Hu, Yanglin Zhu, Alyssa Chuang, D. Graf, D.J. Adams, S.M.A. Radmanesh_, L. Spinu, I. Chiorescu, and Zhiqiang Mao, “Nearly Massless Dirac fermions hosted by Sb square net in BaMnSb₂”. Scientific Reports, 6, 30525 (2016)

41)   A. Politan, A. Cupolillo, M. S. Vitiello, J. Hu, J. Wei, Z.Q. Mao, G. Chiarello, and D. W. Boukhvalov, “Unusually strong lateral interactions in the CO overlayer on phosphorene-based systems”. Nano Research, 9, 2598 (2016)

40)   Leonardo Viti, Jin Hu, Dominique Coquillat, Antonio Politano, Christophe Consejo, Wojciech Knap, Miriam S Vitiello, “Heterostructured hBN-BP-hBN Nanodetectors at Terahertz Frequencies”. Advanced Materials, 28, 7390 (2016)

39)   Jin Peng, Jinyu Liu, Xiaomin Gu, Guotai Zhou, Wei Wang, Jin Hu, F. M. Zhang, Xiaoshan Wu, “Extremely large electronic anisotropy caused by electronic phase separation in Ti-doped Ca₃Ru₂O₇”. Journal of Physics D: Applied Physics 49, 245004 (2016)

38)   Jin Peng, Jin Hu, Xiaomin Gu, Guotai Zhou, Jinyu Liu, Fengming Zhang, and Xiaoshan Wu, “Normal and inverse bulk spin valve effect in single crystal ruthenates”. Applied Physics Letters 108, 162402 (2016)

37)   Fan Ye, Jaesung Lee, Zenghui Wang, Rui Yang, Jin Hu, Jiang Wei, Zhiqiang Mao, Philip X.-L. Feng, “Single- and few-Layer WTe₂ Suspended Nanostructures: Raman Signatures and Nanomechanical Resonances”. Nanoscale 8, 7854 (2016)

36)   Leonardo Viti, Jin Hu, Dominique Coquillat, Antonio Politano, Wojciech Knap, and Miriam S.Vitiello, “Efficient Terahertz detection in black-phosphorus nano transistors with selective and controllable plasmonic, bolometric and thermoelectric response”. Scientific Reports 6, 20474 (2016).

35)   Jin Hu, Zhijie Tang, Jinyu Liu, Xue Liu, Yanglin Zhu, David Graf, Kevin Myhro, Son Tran, Chun Ning Lau, Jiang Wei and Zhiqiang Mao, “Evidence of Topological nodal-line fermions in ZrSiSe and ZrSiTe”. Physical Review Letters (Editors’ suggestions), 117, 016602 (2016)

34)   Jin Peng, J.Y. Liu, J. Hu, Z.Q. Mao and X. S. Wu “Magnetic phase separation in double layer ruthenates Ca₃(Ru_1-xTi_x)₂O₇”. Scientific Reports 6, 19462 (2016)

33)   Chunlei Yue†, Jin Hu†, Xue Liu, Ana M. Sanchez, Zhiqiang Mao, and Jiang Wei. “Nano-scale inhomogeneous Superconductivity in Fe(Te_1-xSe_x) probed by nano structure-transport” ACS Nano 10, 429 (2016) 

32)   J. Hu, J.Y. Liu, D. Graf, S.M.A. Radmanesh, D.J. Adams, A. Chuang, Y. Wang, I. Chiorescu, J. Wei, L. Spinu, Z.Q. Mao, “π Berry phase and Zeeman splitting of Weyl semimetal TaP”. Scientific Reports 6, 18674 (2016)

31)   Z. K. Liu, M. Yi, Y. Zhang, J. Hu, R. Yu, J. -X. Zhu, R. -H. He, Y. L. Chen, M. Hashimoto, R. G. Moore1, S. -K. Mo, Z. Hussain, Q. Si, Z. Q. Mao, D. H. Lu, Z. X. Shen. “Experimental Observation of Incoherent-Coherent Crossover and Orbital Dependent Band Renormalization in Iron Chalcogenide Superconductors”. Physical Review B 92, 235138 (2015)

30)   Giuseppe Nicotra, Antonio Massimiliano Mio, Anna Cupolillo, Jin Hu, Jiang Wei, Zhiqiang Mao, Ioannis Deretzis, Antonio Politano, Corrado Spinella, “STEM and EELS Investigation on Black Phosphorus at Atomic Resolution”. Microscopy and Microanalysis, 21, 427 (2015)

29)   Y. L. Wang, L. R. Thoutam, Z. L. Xiao, J. Hu, S. Das, Z. Q. Mao, J. Wei, R. Divan, A. Luican-Mayer, G. W. Crabtree, and W. K. Kwok, “Origin of the turn-on temperature behavior in WTe₂”. Physical Review B 92 180402(R) (2015)

28)   Leonardo Viti, Jin Hu, Dominique Coquillat, Antonio Politano, Wojciech Knap, and Miriam S.Vitiello, “Black-phosphorus Terahertz photodetectors”. Advanced Materials 27, 5567 (2015)

27)   P. L. Cai, J. Hu, L. P. He, J. Pan, X. C. Hong, Z. Zhang, J. Zhang, J. Wei, Z. Q. Mao, S. Y. Li. “Drastic Pressure Effect on the Extremely Large Magnetoresistance in WTe₂: Quantum Oscillation Study”. Physical Review Letters 115, 057202 (2015)

26)   M. Yi, Z.-K. Liu, Y. Zhang, R. Yu, J.-X. Zhu, J. J. Lee, R. G. Moore, F. T. Schmitt, W. Li, S. C. Riggs, J.-H. Chu, B. Lv, J. Hu, T. J. Liu, M. Hashimot, S.-K. Mo, Z. Hussain, Z. Q. Mao, C. W. Chu, I. R. Fisher, Q. Si, Z.-X. Shen, and D. H. Lu. “Observation of universal strong orbital-dependent correlation effects in iron chalcogenides”. Nature Communications 6, 7777 (2015)

25)   Nathaniel Gillgren, Darshana Wickramaratne, Yanmeng Shi, Tim Espiritu, Jiawei Yang, Jin Hu, Jiang Wei, Xue Liu, Zhiqiang Mao, Kenji Watanabe, Takashi Taniguchi, Marc Bockrath, Yafis Barlas, Roger K Lake, Chun Ning Lau. “Gate tunable quantum oscillations in air-stable and high mobility few-layer phosphorene heterostructures”. 2D Materials 2, 011001 (2015)

24)   J. Hu, X. Liu, C.L. Yue, J.Y. Liu, H.W. Zhu, J. B. He, J. Wei, Z.Q. Mao, L.Yu. Antipina, Z.I. Popov, P.B. Sorokin, T.J. Liu, P.W. Adams, S.M.A Radmanesh, L. Spinu, H. Ji and D. Natelson. “Enhanced Electron Coherence in Atomically Thin Nb₃SiTe₆”. Nature Physics 11, 471 (2015)

23)   Mengyuan Zhu, Gyan H Aryal, Nan Zhang, Hong Zhang, Xiaoye Su, Russell H Schmehl, Janarthanan Jayawickramarajah, Xiu Liu, Jin Hu, Jiang Wei. “Host-guest interactions derived multilayer perylene diimide thin film constructed on a scaffolding porphyrin monolayer”. Langmuir 31, 578 (2015)

22)   Bin Qian, Jin Hu, Jinyu Liu, Zhida Han, Ping Zhang, Lei Guo, Xuefan Jiang, T Zou, M Zhu, CR Dela Cruz, X Ke, ZQ Mao. “Weak ferromagnetism of Cu_xFe_1+yAs and its evolution with Co doping”. Physical Review B 91, 014504 (2015)

21)   J. Leiner, V. Thampy, A. D. Christianson, D. L. Abernathy, M. B. Stone, M. D. Lumsden, A. S. Sefat, B. C. Sales, Jin Hu, Zhiqiang Mao, Wei Bao, and C. Broholm. “Modified magnetism within the coherence volume of superconducting Fe_1+δSe_xTe_1−x”. Physical Review B 90, 100501(R) (2014)

20)   Xue Liu†, Jin Hu†, Chunlei Yue, Nicholas Della Fera, Yun Ling, Zhiqiang Mao, Jiang Wei. “High Performance Field-Effect Transistor Based on Multilayer Tungsten Disulfide”. ACS Nano 8, 10396 (2014) 

19)   J. Hu, J.Y. Liu and  Z. Q. Mao. “Spin–orbit coupling and weak antilocalization in the thermoelectric material b-K₂Bi₈Se₁₃”. Journal of Physics: Condensed Matter 26, 095801(2014)

18)   J.E. Ortmann, J. Y. Liu, J. Hu, M. Zhu, J. Peng, M. Matsuda, X. Ke and  Z. Q. Mao. “Competition Between Antiferromagnetism and Ferromagnetism in Sr₂RuO₄Probed by Mn and Co Doping”. Scientific Reports 3, 2950 (2013)

17)   Punam Silwal, Ludi Miao, Jin Hu, Leonard Spinu, Dae Ho Kim, and Diyar Talbayev. “Thickness dependent structural, magnetic, and electronic properties of the epitaxial films of transparent conducting oxide NiCo₂O₄”. Journal of Applied Physics 114, 103704 (2013)

16)   Ludi Miao, Wenyong Zhang, Punam Silwal, Xiaolan Zhou, Ilan Stern, Tijiang Liu, Jin Peng, Jin Hu, Dae Ho Kim, and Z. Q. Mao. “Epitaxial strain effect on transport properties in Ca_2−xSr_xRuO₄ thin films”. Physical Review B 88, 115102 (2013)

15)   Andrei Diaconu, Catalin Martin, Jin Hu, Tijiang Liu, Bin Qian, Zhiqiang Mao, and Leonard Spinu. “Possible nodal superconducting gap in Fe_1+y(Te_1−xSe_x) single crystals from ultralow temperature penetration depth measurements”. Physical Review B 88, 104502 (2013)

14)   J. Hu, T.J. Liu, B. Qian, and Z.Q. Mao. “Coupling of electronic and magnetic properties in Fe_1+y(Te_1−xSe_x)”. Physical Review B 88, 094505 (2013)

13)   Z. K. Liu, R.-H. He, D. H. Lu, M. Yi, Y. L. Chen, M. Hashimoto, R. G. Moore, S.-K. Mo, J. Hu, T. J. Liu, Z. Q. Mao, T. P. Devereaux, Z. Hussain, and Z.-X. Shen. “Measurement of Coherent Polarons in the Strongly Coupled Antiferromagnetically Ordered Iron-Chalcogenide Fe_1.02Te using Angle-Resolved Photoemission Spectroscopy”. Physical Review Letters 110, 037003 (2013)

12)   X. Ke, B. Qian, H. Cao, J. Hu, G. C. Wang, and Z. Q. Mao. “Magnetic structure of quasi-one-dimensional antiferromagnetic TaFe_1+yTe₃”. Physical Review B 85, 214404 (2012)

11)   B. Qian, J. Lee, J. Hu, G. C. Wang, P. Kumar, M. H. Fang, T. J. Liu, D. Fobes, H. Pham, L. Spinu, X. S. Wu, M. Green, S. H. Lee, and Z. Q. Mao. “Ferromagnetism in CuFeSb: Evidence of competing magnetic interactions in iron-based superconductors”. Physical Review B 85, 144427 (2012)

10)   Punam Silwal, Ludi Miao, Ilan Stern, Xiaolan Zhou, Jin Hu, and Dae Ho Kim. “Metal insulator transition with ferrimagnetic order in epitaxial thin films of spinel NiCo₂O₄”. Applied Physics Letters 100, 032102 (2012)

9)   J. Hu, G.C. Wang, B. Qian, and Z.Q. Mao. “Inhomogeneous superconductivity induced by interstitial Fe deintercalation in oxidizing-agent-annealed and HNO₃-treated Fe_1+y(Te_1-xSe_x)”. Invited paper, Superconductor Scientific and Technology 25, 084011 (2012)

8)   V. Thampy, J. Kang, J. A. Rodriguez-Rivera, W. Bao, A. T. Savici, J. Hu, T. J. Liu, B. Qian, D. Fobes, Z. Q. Mao, C. B. Fu, W. C. Chen, Q. Ye, R. W. Erwin, T. R. Gentile, Z. Tesanovic, and C. Broholm. “Friedel-like Oscillations from Interstitial Iron in Superconducting Fe_1+yTe_0.62Se_0.38”. Physical Review Letters 108, 107002 (2012).

7)   K. Cho, H. Kim, M. A. Tanatar, J. Hu, B. Qian, Z. Q. Mao, and R. Prozorov. “Precision global measurements of London penetration depth in FeTe_0.58Se_0.42”. Physical Review B 84, 174502 (2011)

6)   J. Hu, T. J. Liu, B. Qian, A. Rotaru, L. Spinu, and Z. Q. Mao. “Calorimetric evidence of strong-coupling multiband superconductivity in Fe(Te_0.57Se_0.43) single crystal”. Physical Review B 83, 134521 (2011)

5)   D. N. Argyriou, A. Hiess, A. Akbari, I. Eremin, M. M. Korshunov, J. Hu, B. Qian, Z. Mao, Y. Qiu, C. Broholm, and W. Bao. “Incommensurate itinerant antiferromagnetic excitations and spin resonance in the FeTe_0.6Se_0.4 superconductor”. Physical Review B 81, 220503 (2010)

4)   T.J. Liu†, J. Hu†, B. Qian, D. Fobes, Z.Q. Mao, W. Bao, M. Reehuis, S.A.J. Kimber, K. Prokes, S. Matas, D.N. Argyriou, A. Hiess, A. Rotaru, H. Pham, L. Spinu, Y. Qiu, V. Thampy, A.T. Savici, J. A. Rodriguez, and C. Broholm. “From (π,0) magnetic order to superconductivity with (π,π) magnetic resonance in Fe_1.02Te_1-xSe_x”. Nature Materials 9, 716 (2010) 

3)   H. Kim, C. Martin, R. T. Gordon, M. A. Tanatar, J. Hu, B. Qian, Z. Q. Mao, R. Hu, C. Petrovic, N. Salovich, R. Giannetta, and R. Prozorov. “London penetration depth and superfluid density of single-crystalline Fe_1+y(Te_1-xSe_x) and Fe_1+y(Te_1-xS_x)”. Physical Review B 81, 180503 (2010)

2)   T. J. Liu, X. Ke, B. Qian, J. Hu, D. Fobes, E. K. Vehstedt, H. Pham, J. H. Yang, M. H. Fang, L. Spinu, P. Schiffer, Y. Liu, and Z. Q. Mao. “Charge-carrier localization induced by excess Fe in the superconductor Fe_1+yTe_1-xSe_x”. Physical Review B 80, 174509 (2009)

1)   Y. Qiu, W. Bao, Y. Zhao, C. Broholm, V. Stanev, Z. Tesanovic, Y. C. Gasparovic, S. Chang, J. Hu, B. Qian, M. Fang, and Z.Q. Mao. “Spin Gap and Resonance at the Nesting Wave Vector in Superconducting FeSe_0.4Te_0.6”. Physical Review Letters 103, 067008 (2009)