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楊騰

(研究員)

鎖定
楊騰,畢業於南京大學,研究員。
中文名
楊騰
國    籍
中國
民    族
畢業院校
南京大學
美國密歇根州立大學
職    稱
研究員

目錄

  1. 1 基本信息
  2. 2 簡歷
  3. 教育經歷
  4. 工作經歷
  5. 3 研究領域
  6. 4 代表論著

楊騰基本信息

楊騰
性 別 男
最高學歷 博士研究生
職 稱 研究員 [1] 
部 門 瀋陽材料科學國家(聯合)實驗室 功能材料與器件研究部
通訊地址 遼寧省瀋陽市瀋河區文化路72號,中國科學院金屬研究所,功能材料與器件研究部

楊騰簡歷

楊騰教育經歷

1995年9月至1999年7月 南京大學物理學系 物理學學士學位
1999年9月至2002年6月 南京大學物理學系 物理學碩士學位
2004年8月至2009年5月 美國密歇根州立大學天文物理系 物理學博士學位

楊騰工作經歷

2009年8月至2012年8月 中科院金屬研究所,瀋陽材料科學國家(聯合)實驗室 “葛庭燧”獎項目副研究員
2011年5月至7月 美國密歇根州立大學天文物理系 訪問學者
2010年6月至7月 意大利ICTP薩拉姆理論物理國際中心 訪問學者
2012年9月至今 中科院金屬研究所,瀋陽材料科學國家(聯合)實驗室 副研究員

楊騰研究領域

功能材料和能源轉化材料的結構、電子結構、奇異物性和譜學表徵的計算機模擬,及相應數值分析方法的開發、發展和應用。

楊騰代表論著

1. J. Huang, H. Guo, L.Zhou, S. Zhang, L. Tong, R. Saito, T. Yang, Z. Zhang, First-principlescalculations of double resonance Raman spectra for monolayer MoTe2, Physical Review B 105, 235401 (2022).
2. Fei Gao, Jianqi Huang,Weijun Ren, Mingze Li, Han Wang, TengYang, Bing Li, Zhidong Zhang, Magnetic and transport properties of thetopological compound DySbTe, Physical Review B 105, 214434 (2022).
3. B. Xu, H. Hao, J. Huang, Y. Zhao, T.Yang, J. Zhang, L. Tong, Twist-Induced New Phonon Scattering Pathways in Bilayer Graphene Probedby Helicity-Resolved Raman Spectroscopy, J. Phys. Chem. C 126, 10487-10493 (2022).
4. Jiuxiang Dai, Teng Yang,Zhitong Jin, Yunlei Zhong, Xianyu Hu, Jingyi Zou, Weigao Xu, Tao Li, YuxuanLin, Xu Zhang, Lin Zhou, Controlled growth oftwo-dimensional InAs single crystals via van der Waals epitaxy, Nano Research 15, 9954–9959 (2022)
5. Tianye Huang, Xuecou Tu,Changqing Shen, Binjie Zheng, Junzhuan Wang, Hao Wang, Kaveh Khaliji, Sang HyunPark, Zhiyong Liu, Teng Yang, Zhidong Zhang, Lei Shao, Xuesong Li, Tony Low, YiShi, Xiaomu Wang, Observation ofChiral and Slow Plasmons in Twisted Bilayer Graphene, Nature 605, 63-68 (2022)
6. L. Zhu, T. Yang, Y.Zhong, Z. Jin, et al., Scalable andVersatile Transfer of Sensitive Two-dimensional Materials, Nano Letters 22, 2342 (2022)
7. ZijingZhao, Jian Zhou, Luhao Liu, Nanshu Liu, Jianqi Huang, Biao Zhang, Wei Li, YiZeng, Teng Zhang, Wei Ji, Teng Yang, Zhidong Zhang, Songlin Li, Yanglong Hou, Two-DimensionalRoom-Temperature Magnetic Nonstoichiometric Fe7Se8Nanocrystals: Controllable Synthesis and Magnetic Behavior, Nano Letters 22 (3), 1242 (2022)
8. ShishuZhang, Jianqi Huang, Yue Yu, Shanshan Wang, Teng Yang, Zhidong Zhang, LianmingTong, Jin Zhang, Quantum InterferenceDirected Chiral Raman Scattering in Two-dimensional Enantiomers, Nature Communications 13, 1254 (2022)
9. Yi Zeng,Pingfan Gu,Zijing Zhao,Biao Zhang,Zhongchong Lin,Yuxuan Peng,Wei Li,Wanting Zhao,Yuchen Leng,Pingheng Tan,Teng Yang,Zhidong Zhang,Youting Song,Jinbo Yang,Yu Ye,Kesong Tian,Yanglong Hou,2D FeOCl: A Highly In-Plane Anisotropic Antiferromagnetic SemiconductorSynthesized via Temperature-Oscillation Chemical Vapor Transport, AdvancedMaterials 34 (14), 2108847(2022)
10. Z. Y. Liu, W. Shi, T. Yang, Z.D. Zhang, Magic angles and flatchern bands in alternating-twist multilayer graphene system, J. Mater. Sci. & Technol. 111, 28 (2022).
11. Xingdan Sun, Shihao Zhang, Zhiyong Liu, Honglei Zhu, JinqiangHuang, Kai Yuan, Zhenhua Wang, Kenji Watanabe, Takashi Taniguchi, Xiaoxi Li,Mengjian Zhu, Jinhai Mao, Teng Yang, Jun Kang, Jianpeng Liu, Yu Ye, Zheng VittoHan, Zhidong Zhang, Correlated states in doubly-alignedhBN/graphene/hBN heterostructures, Nature Communications 12, 7196 (2021)
12. X. Sun, W. Li, X. Wang,Q. Sui, T. Zhang, Z. Wang, L. Liu, D. Li, S. Feng, S. Zhong, H. Wang, V.Bouchiat, M. Regueiro, N. Rougemaille, J. Coraux, A. Purbawati, A. Hadj-Azzem,Z. Wang, B. Dong, X. Wu, T. Yang, G. Yu, B. Wang, Z. Han, X. Han, Z. Zhang, Room temperatureferromagnetism in ultra-thin van der Waals crystals of 1T-CrTe2, Nano Research 13, 3358 (2020)
13. H. Wang, M. Chen, M. Zhu, Y. Wang, B. Dong,X. Sun, X. Zhang, S. Cao, X. Li, J. Huang, L. Zhang, W. Liu, D. Sun, Y. Ye, K.Song, J. Wang, Y. Han, Teng Yang, H. Guo, C. Qin, L. Xiao, J. Zhang, J. Chen,Z. Han, Z. Zhang, Gate tunable giant anisotropic resistance in ultrathin GaTe, Nature Communications 10, 2302 (2019).
14. B.J.Dong, Z.H. Wang, N.T. Hung, A. R. Oganov, Teng Yang, Riichiro Saito, andZhidong Zhang, Newtwo-dimensional phase of tin chalcogenides: Candidates for high-performancethermoelectric materials, Phys. Rev. Materials 3, 013405(2019)
15. Z.Wang, T. Zhang, M. Ding, B. Dong, Y. Li, M. Chen, X. Li, Y. Li, D. Li, C. Jia,L. Sun, H. Guo, D. Sun, Y. Chen, T. Yang, J. Zhang, S. Ono, Z. Han, and Z.Zhang, Electric-field control of magnetism in a few-layeredvan der Waals ferromagnetic semiconductor, Nature Nanotechnology 13, 554 (2018).
16. Z. Han*, T. Yang*, 物理學漫談-鐵磁半導體花落兩維裏, 物理 Physics 47(10), 670 (2018).
17. W. Wei,C. Chang, Teng Yang, J.Z. Liu, H.C.Tang, J. Zhang, Y.S. Li, F. Xu, Z.D. Zhang, J.F. Li, G.D. Tang, AchievingHigh Thermoelectric Figure of Merit in Polycrystalline SnSe via Introducing SnVacancies, J. Am. Chem. Soc. 140 (1), 499–505 (2018).
18. BaojuanDong, Huaihong Guo, Zhiyong Liu, Teng Yang, PengTao, Sufang Tang, Riichiro Saito, Zhidong Zhang, Spontaneousantiferromagnetic order and strain effect on electronic properties ofα-graphyne, Carbon 131, 223 (2018).
19. L. Zhou; S.X. Huang; Y.K. Tatsumi; L.J. Wu; H.H. Guo; Y.Q. Bie; K. Ueno;Teng Yang; Y.M. Zhu; J. Kong; R. Saito; M.S. Dresselhaus, Sensitive Phonon-Based Probe for Structure Identification of1T′ MoTe2, J. Am. Chem. Soc. 139 (25), 8396 (2017).
20. K. L. Kuntz, R. A. Wells, J. Hu, Teng Yang, B. Dong, H. Guo, A. H.Woomer, D. L. Druffel, A. Alabanza, D. Tománek, S. C. Warren, Control of surface and edge oxidation on phosphorene, ACS Applied Materials& Interfaces 9 (10), 9126–9135 (2017).
21. J. Wang, B. Dong, H. Guo, Teng Yang*, Gan Hu, Riichiro Saito,Zhidong Zhang, Stability and electronic properties of two-dimensional indiumiodide, Physical Review B 95, 045404 (2017).
22. S.Huang, Y. Tatsumi, X. Ling, H. Guo, Z. Wang, G. Watson, A.A. Puretzky, D.B.Geohegan, J. Kong, J. Li, Teng Yang, R. Saito, M.S. and Dresselhaus, In-Plane Optical Anisotropy of Layered GalliumTelluride,ACS Nano 10, 8964 (2016).
23. Teng Yang, Baojuan Dong, Jizhang Wang, Zhidong Zhang, Jie Guan,Kaci Kuntz, Scott Warren, David Tomanek, “Interpretingcore-level spectra of oxidation phosphorene: Theory and Experiment”, PhysicalReview B 92, 125412 (2015).
24. Huaihong Guo, Teng Yang*, M. Yamamoto, Lin Zhou, R.Ishikawa, K. Ueno, K. Tsukagoshi, Zhidong Zhang, M. S. Dresselhaus, R. Saito, “Double resonance Raman modes in mono-and few-layer MoTe2”, Physical Review B 91, 205415 (2015).
25. Han Wang, Chunlin Chen, Yexin Zhang, LixiaPeng, Song Ma, Teng Yang, Huaihong Guo, Zhi-dong Zhang, Dangsheng Su,Jian Zhang, “In-situ Oxidation of Carbon-encapsulatedCobalt Nanocapsules Creates Highly Active Cobalt Oxide Catalysts forHydrocarbon Combustion”, Nature Communications 6, 7181 (2015).
26. Peng Tao, Huaihong Guo, Teng Yang*, ZhidongZhang, “Strain-induced magnetismin MoS2 monolayer with defects”, J. Appl. Phys.,115, 054305 (2014).
27. Huaihong Guo, Teng Yang*,Peng Tao, Yong Wang, Zhidong Zhang, “High pressure effect on structure, electronic structure, and thermoelectric properties of MoS2”, J. Appl. Phys.,113,013709 (2013).
28. Yingying Dai, Han Wang, Peng Tao, Teng Yang, WeijunRen, Zhidong Zhang, “Skyrmion ground state and gyrationof skyrmions in magnetic nanodisks without the Dzyaloshinsky-Moriya interaction”, Physical Review B, 88, 054403 (2013).
29. B Diaconescu, Teng Yang, S Berber, M Jazdzyk, GPMiller, D Tománek, KarstenPohl, “Molecular self-assembly of functionalizedfullerenes on a metal surface”, Physical Review Letters, 102, 056102 (2009).
30. Teng Yang, S Berber, D Tománek, “Compositional ordering and quantumtransport in Mo6S9-xIx nanowires: Ab initiocalculations”, Physical Review B, 77, 165426 (2008).
31. RK Raman, Y Murooka, CY Ruan, Teng Yang, S Berber, DTománek, “Direct observation of opticallyinduced transient structures in graphite using ultrafast electroncrystallography”, Physical Review Letters,101, 077401 (2008).
32. Teng Yang, S Berber, JF Liu, GP Miller, D Tománek, “Self-assembly of long chain alkanesand their derivatives on graphite”, TheJournal of Chemical Physics, 128, 124709 (2008).
33. Igor Popov, Teng Yang, Savas Berber, Gotthard Seifert, David Tománek, “Unique structural and transportproperties of molybdenum chalcohalide nanowires”, Physical Review Letters, 99, 085503 (2007).
34. Teng Yang, Shinya Okano, Savas Berber, David Tománek, “Interplay between Structure andMagnetism in Mo12S9I9 Nanowires”, Physical Review Letters, 96, 125502 (2006).
參考資料