性别: 男
学历:博士研究生
职称/职务:教授
E-mail:txwang@htu.edu.cn
所在研究所/科室: 半导体物理研究所
研究领域:
自旋电子学材料及器件方向,主要从事于二维材料及器件的磁、光、电等特性的第一性原理模拟。
学习经历:
博士研究生,中国科学院物理研究所,磁学国家重点实验室,2003年9月-2006年7月
访问学者,爱尔兰、都柏林、圣三一学院,2005年1月-2005年8月
硕士研究生,betway官方app 物理学院,2000年9月-2003年7月
本科,betway官方app 物理学院,1992年9月-1996年7月
工作经历:
2009年9月至今,betway官方app 物理学院,副教授
2006年9月至2009年7月,韩国,首尔,高丽大学,助理教授
1996年9月至2000年7月,禹州市第一高级中学,物理教师
教学工作:
主讲本科生《固体物理》和研究生《计算材料学》课程。
科研工作:
1.国家自然科学基金(NSFC-河南人才培养联合基金)No: U1704136, “基于过渡金属硫化物二维材料的超薄磁性隧道结及相关材料和器件的理论研究”, 2018/01-2020/12、50万元、已结题、主持。
2.国家自然科学基金项目(NSFC-河南人才培养联合基金) No: U1304518, “铁磁 金属、半金属界面轻元素修饰特性及其对磁性隧道结输运特性影响的自能修正理论研究”, 2014/01-2016/12、30万元、已结题、主持。
3.河南省高等学校青年骨干教师资助计划项目No: 01026611010, “铜锌锡硫太阳能电池, 2013/01-2015/12、3万元、已结题、主持。
4.河南省基础与前沿技术研究计划项目, No: 122300413208 铜锌锡硫太阳能电池实验及理论研究, 2012/01-2014/12 35万元、已结题、主持。
主要论著:
1.Tianxing, Wang*; Chensi, Li; Congxin, Xia; Lizhi, Yin; Yipeng, An; Shuyi, Wei; Xianqi, Dai,“Silicene/BN vdW heterostructure as an ultrafast ion diffusion anode material for Na-ion battery”,Physica E: Low-Dimensional Systems and Nanostructures, , 122: 0-114146,(2020).
2.Tianxing, Wang*; Shuai, Zhang; Lizhi, Yin; Chensi, Li; Congxin, Xia; Yipeng, An; Shuyi, Wei,“Silicene/boron nitride heterostructure for the design of highly efficient anode materials in lithium-ion battery”,Journal of Physics: Condensed Matter, 32(35): 0-355502 (2020).
3. Shuai, Zhang; Tianxing, Wang*; Xianqi, Dai; Chensi, Li; Congxin, Xia; Yipeng, An; Shuyi, Wei,“Magnetic modification of transition-metal-atom–adsorbed blue phosphorus monolayer: A first-principles study”,EPL (Europhysics Letters), 129(4): 0-47003.(2020).
4.Wang, Tianxing*; Zhang, Qian; Li, Jingbo; Xia, Congxin,“2D GeSe/SnS2(SnSe2) broken-gap heterostructures for tunnel field-effect transistors applications”,Journal of Physics D: Applied Physics, 52(45): 0-455103,(2019).
5. Rumeng Zhao, Tianxing Wang*, Mingyu Zhao, Congxin Xia, Yipeng An and Xianqi Dai, “Modulation of the electronic properties and spin polarization of 2H VS2 nanoribbons by tuning ribbon widths and edge decoration” Phys. Chem. Chem. Phys., 18211-18218 (2019).
6.Rumeng Zhao, Tianxing Wang*, Mingyu Zhao, Congxin Xia, Yipeng An, Shuyi Wei, Xianqi Dai, “External electric field and strains facilitated nitrogen dioxide gas sensing properties on 2D monolayer and bilayer SnS2 nanosheets”, App. Surf. Sci., 491, 128-137 (2019).
7.Tianxing Wang⁎ , Lizhi Yin, Rumeng Zhao, Congxin Xia⁎ , Xu Zhao, Yipeng An, Shuyi Wei, Xianqi Dai, “First-principles study of monolayer SnS2(1-x)Se2x alloys as anode materials for lithium ion batterie” App. Surf. Sci., 457, 256-263 (2018).
8.Zhao, Rumeng; Wang, Tianxing*; Zhao, Mingyu; Xia, Congxin; An, Yipeng; Wei, Shuyi; Dai, Xianqi, “A theoretical simulation of small-molecules sensing on an S-vacancy SnS2 monolayer”,Phys. Chem. Chem. Phys., 19, 10470 (2017).
9.Tianxing Wang*,Rumeng Zhao,Mingyu Zhao,Xu Zhao,Yipeng An,Xianqi Dai,Congxin Xia*,“Effects of applied strain and electric field on small-molecule sensing by stanene monolayers”,Journal of Materials Science,52:5083~5096,(2017).
10.T. X. Wang*,Y. Li,C. X. Xia*,X. Zhao,Y. P. An,X. Q. Dai, “Effects of B and N modified interface and applied bias on the magnetoresistance in Fe/MgO/Fe magnetic tunnel junctions”,journal of applied physics,0021-8979 (2017).
11.Wang, Tianxing*,Zhao, Rumeng,Zhao, Xu,An, Yipeng,Dai, Xianqi,Xia, Congxin*,“Tunable donor and acceptor impurity states in a WSe2 monolayer by adsorption of common gas molecules”,Rsc Advances, 6(86), 82793-82800, (2016).
12.Wang, Tianxing*,Li, Ying,Xia, Congxin*,Zhao, Xu*,An, Yipeng,Dai, Xianqi,“Magnetic vanadium sulfide monolayers: transition from a semiconductor to a half metal by doping”,Journal of Materials Chemistry C,4(34):8111~8120, (2016) .
13.Guo, Peng*,Wang, Tianxing,Xia, Congxin,Jia, Yu,“Tuning electronic structure of SnS2 nanosheets by vertical electric field: a first-principles investigation”,Applied Physics A-Materials Science & Processing,122(7)(2016).
14. Zhao, Xu*,Wang, Tianxing*,Wang, Guangtao,Dai, Xianqi,Xia, Congxin(*),Yang, Lin,“Electronic and magnetic properties of 1T-HfS2 by doping transition-metal atoms”,Applied Surface Science, 383, 151-158, (2016).
15.Tian-Xing Wang*, Yan-Guo Li, Hai-Rui Liu, Hui Li, Si-Xiang Chen, “Flower-like Cu2NiSnS4 nanoparticles synthesized by a facile solvothermal method”, Mater. Lett., 124, 148-150 (2014).
16.T. X. Wang, Y. Li, K. J. Lee, J. U. Cho, D. K. Kim, S. J. Noh, and Y. K. Kim’, “Influence of interface state in Fe/MgO/Fe magnetic tunnel junction system: C modified interfaces-a first principle study”, J. App. Phys. 109, 083714 (2011)
17.T. X. Wang*, Y. Li, and Y. M. Liu, “The influence of Al content on impurity states in GaN/AlGaN asymmetrically coupled quantum dots” Phys. Status Solidi B 248 (7), 1671–1675 (2011).
18. Ying Li, Tian-Xing Wang, “Magnetic dipolar ordering on geometrically frustrated brick-shaped lattices”, Physica A, 390, 2388-2394, (2011).
19.Tianxing Wang, Zaiping Zeng, Congxin Xia, Shuyi Wei, “Hydrostatic pressure effect on the donor impurity states in asymmetric multiple quantum wells”, Superlatt. Microstruc. 49, 365-372 (2011).
20.Y. Li, T. X. Wang “The role of dipolar interactions for the magnetic properties of ferromagnetic nanoring” J. mag. Mag. Mat. 322, 2773-2776, (2010)
21.Cho, J. U. Kim, D. K. Wang, T. X. Isogami, S. Tsunoda, M. Takahashi, M. Kim, Y. K. “Magnetoresistance Variation of MagneticTunnel Junctions with NiFeSiB/CoFeB Free Layers Depending on MgO Tunnel BarrierThickness,” IEEE 11, 2547-2550 (2008).
22. H.X. Wei, T. X. Wang, H. Wang and X.F. Han M.A. Bari and J.M.D. Coey, “An approach to fabricate pure metallic Ni-Ni and metallic oxide Ni-NiO-Ni nanocontacts by repeatable microfabrication method”, Int. J. Nanotechnology, 4, 21 (2007)
23.T. X. Wang, H. X. Wei, Z. M. Zeng, and X. F. Han, Z. M. Hong and G. Q. Shi,“Magnetic/nonmagnetic/magnetic multilayers based on hybrid organic Langmuir-Blodgett-films”. Appl. Phys. Lett. 88 242505 (2006).
24.T. X. Wang, H. X. Wei, X. F. Han, Cong Ren, E. Clifford, R. M. Langford, M. A. Bari, J. M. D. Coey, “A new method of fabrication for andreev reflection measurement”. Chinese journal of semiconductors. 4, 619 (2006).
25.T. X. Wang, H. X. Wei, X. F. Han, R. M. langford, Martin Thornton, M. A. Bari, J. M. D. Coey, “Spin transport in multi wall Carbon Nanotube with Co electrodes,” Chinese Physics Letter. 23, 2582 (2006).
26. H. X. Wei and T. X. Wang, E. Clifford and R M. Langford, X. F. Han, J. M. D. Coey, “Magnetoresistance nickel nanocontacts fabricated by different methods,” J. Appl. Phys. 99,08C512 (2006).
27. Y. Li, T. X. Wang, H. Y. Liu, X. W. Xu, Z. M. Lu and Y. X. Li, “The study of spin ordering in FM/AFM bilayers with a mixed interface,” Eur. Phys. J. B 66, 369-373 (2008)
28. H. X. Wei, T. X. Wang, Z. M. Zeng, X. Q. Zhang, J. Zhao, X. F. Han, “Controlled fabrication of nano-scale double barrier magnetic tunnel junctions using focused ion beam milling method,” J. Magn. Magn. Matter. 303, e208 (2006).
29. WEI Shu-Yi, WANG Tian-Xing, YANG Zong-Xian, and MA Li, “First-Principles Studies for the Electronic Structures of Diluted Magnetic Semiconductors (Ga, Fe)As,” Commun. Theor. Phys. (Beijing, China) 40, 499 (2003).
30. R. M. Langford, T-X Wang, D. Ozkaya, “Imaging, Analysis and Fabrication on the Nanoscale,” Proceedings of EMAG-NANO 05, University of Leeds, UK 2005.
奖励和荣誉:
河南省科技成果奖“二维半导体材料的光电磁性质调控”No:【2020】135(8323),2020.05,(二等奖)河南省教育厅
北京市科学技术奖 “纳米环磁性隧道结及新型纳米环随机存取存储器的基础研“No: 2013-电-1-001-14,2014.01,(壹等奖)北京市人民政府
河南省科学技术进步奖“压敏金属-高分子复合材料制备及电学性能研究”No: 2011-J-265-R04,2012.01,(三等奖)河南省人民政府
河南省“高等学校青年骨干教师”2012.05,河南省教育厅
研究生“科技创新”工作“优秀指导教师”2020.6,betway官方app
研究生“科技创新”工作“优秀指导教师”2018.7,betway官方app
“三育人”“先进个人”2017.5,betway官方app
研究生“科技创新”工作“优秀指导教师”2014.6,betway官方app
研究生“科技创新”工作“优秀指导教师”2012.6,betway官方app
“两创四争”活动“文明教师”2012.6,betway官方app