header
殷隆晶

发布于:2018-03-23 星期五 14:18:42  点击数:11415

殷隆晶,男,副教授,江西九江人,湖湘青年英才,湖南省优青。

2017年博士毕业于北京师范大学物理学系,后入职湖南大学物理与微电子科学学院任副教授,主要从事低维体系的表面与界面物理、低维量子态构筑与调控、扫描隧道显微学研究。

                            欢迎感兴趣的同学加入,我们一起“从原子尺度看世界”!

基本信息

教学单位:应用物理系
研究领域:凝聚态实验,表面物理
研究方向:低维体系的表面与界面物理,扫描隧道显微镜,石墨烯
办公地点:物电院A栋303
电子邮箱:yinlj@hnu.edu.cn

教育背景

2014年9月-2017年6月    北京师范大学    物理学系(凝聚态物理)    博士学位      师:何林 教授

2011年9月-2014年7月    北京师范大学    物理学系(凝聚态物理)    硕士学位      导师:窦瑞芬 教授, 何林 教授

2007年9月-2011年7月    东华理工大学    物理系(物理学)              学士学位

工作履历

2017年6月至今   湖南大学  物理与微电子科学学院   副教授

学术兼职

目前为Nature子刊、PRL、ACS Nano、Nano Letters等国际学术期刊审稿人。

研究领域

  • 凝聚态物理实验(表面物理,低维体系的构筑与微观量子态探测/调控,平带构筑与关联物态研究等)

  • 目前主要利用扫描隧道显微镜(STM)和其它电测量手段研究石墨烯及其它二维材料的物理性质,从原子尺度揭示微观量子物态。研究内容包括了利用化学气相沉积法(CVD)、分子束外延法(MBE)、微机械操控堆垛等生长制备石墨烯及类石墨烯等二维材料与结构,同时进一步利用STM、AFM、Raman光谱仪等表征测量手段研究上述材料的新奇物理性质,并对低维结构进行微观操控,对低维表面结构的电子态进行调控。近年来,利用堆垛调控在石墨烯基范德华层状体系研究中取得系列进展。目前已经在Physical Review Letters、Nature Communications、Advanced Materials、Physical Review B等国际权威期刊上发表了学术论文30余篇,其中一作/通讯论文包括1篇Nature Commun.(入选2021高被引论文), 2篇PRL,11篇PRB(含5篇Rapid Communications/Letter),1篇PRMater.(Letter)等。相关研究成果被多名诺贝尔物理学奖得主正面引用/署名评论,被Nature/Science等期刊正面引用评论,被国家自然科学基金委的委刊《中国科学基金(英文版)》等点亮报道。


  • 课题组目前几个特色研究方向为:  

  1.  魔转角多层范德华异质结体系中的新奇结构/新量子物态探测与调控、局域微观性质研究;

  2.   ABC堆垛(菱方)多层石墨烯中的平带、强相互作用、负微分电导等新奇物理现象研究;

  3.  范德华层状原子材料微观堆垛操控、原子尺度制造、新量子体系构建。



STM.jpg         twist.jpg

图1. “原子尺度的亲密接触”——扫描隧道显微镜概念图与原理图 [素材源自网络]; 图2. 魔转角双层石墨烯的原子结构与超晶格结构STM图像 [详见 Phys. Rev. Lett. 128, 126401 (2022)、Phys. Rev. B 92, 081406(R) (2015)]


E}RRYL)N61MPK_$UJ}R$5_V.png          W28RKC2%T2UUSE8I)0[1ZVX.png

图3. ABC堆垛三层石墨烯高磁场下新奇量子态的STM探测 [详见Phys. Rev. Lett. 122, 146802 (2019)];图4. 利用STM针尖操控构筑可调平带与Zigzag边界石墨烯纳米结构 [详见Phys. Rev. Materials (Letter) 6, L041001 (2022)、Carbon 165, 169 (2020)]



本课题组每年欲招收研究生2-3名,提供有竞争力的劳务待遇、国际一流的实验条件!
欢迎加入!


科研项目

主持:

国家自然科学基金面上项目(2022-2025)

湖南省“湖湘青年英才”计划(2021-2024)

湖南省自然科学基金“优秀青年项目”(2021-2023)

重庆市自然科学基金面上项目(2021-2024)

国家自然科学基金青年基金项目(2019-2021)

湖南省自然科学基金青年基金项目(2018-2020)

湖南大学科研启动经费(2017-2022)

学术成果

代表性成果:

1.      Physical Review Letters 128, 126401 (2022)(入选PRL Editors' Suggestion

2.      Physical Review Letters 122, 146802 (2019)(Highlight in Science Foundation in China;

3.      Nature Communications 7, 11760 (2016)(Google Scholar Citations: 185);

4.      Physical Review B (Letter) 105, L201405 (2022);

5.      Physical Review B (Rapid Communication) 102, 241403(R) (2020);

6.      Physical Review B (Rapid Communication) 95, 081402(R) (2017);

7.    Physical Review B (Rapid Communication) 92, 081406(R) (2015);

8.     Physical Review B (Rapid Communication) 92, 201408(R) (2015). 


具体成果详情:

1.      Tong, L.-H.; Tong, Q.; Yang, L.-Z.; Zhou, Y.-Y.; Wu, Q.; Tian, Y.; Zhang, L.; Zhang, L.; Qin, Z.* & Yin, L.-J.*, Spectroscopic Visualization of Flat Bands in Magic-Angle Twisted Monolayer-Bilayer Graphene: Coexistence of Localization and Delocalization. Physical Review Letters 128, 126401 (2022). Editors' Suggestion

2.      Yang, L.-Z.; Tong, L.-H.; Liao, C.-C.; Wu, Q.; Fu, X.; Zhou, Y.-Y.; Tian, Y.; Zhang, L.; Zhang, L.; Cai, M.-Q.; He, L.; Qin, Z.* & Yin, L.-J.*, Origami-controlled strain engineering of tunable flat bands and correlated states in folded graphene. Physical Review Materials (Letter) 6, L041001 (2022).

3.     Yin, L.-J.*; Tong, L.-H.; Zhou, Y.-Y.; Zhang, Y.; Tian, Y.; Zhang, L.; Zhang, L.; Qin, Z.*, Direct observation of moiré flat-band breakdown at the edge of magic-angle twisted bilayer graphene. Physical Review B (Letter) 105, L201405 (2022).

4.     Yin, L.-J.*; Yang, L.-Z.; Zhang, L.; Wu, Q.; Fu, X.; Tong, L.-H.; Yang, G.*; Tian, Y.; Zhang, L. & Qin, Z.*, Imaging of nearly flat band induced atomic-scale negative differential conductivity in ABC-stacked trilayer graphene. Physical Review B (Rapid Communication) 102, 241403(R(2020).

5.     Yin, L.-J.; Shi, L.-J.; Yang, L.-Z.; Tong, L.-H. & He, L. Spectroscopic Characterization of Landau Level Splitting and the Intermediate v = 0 Phase in Bilayer Graphene, Physical Review B 101, 165418 (2020).

6.      Shi, L.-J.; Yang, L.-J.; Deng, J.-Q.; Tong, L.-H.; Wu, Q.; Zhang, L.; Zhang, L.; Yin, L.-J.* & Qin, Z.* Constructing graphene nanostructures with zigzag edge terminations by controllable STM tearing and folding, Carbon 165, 169 (2020).

7.     Liu, Y.-W.; Su, Y.; Zhou, X.-F.; Yin, L.-J.; Yan, C.; Li, S.-Y.; Yan, W.; Han, S.; Fu, Z.-Q.; Zhang, Y.; Yang, Q.; Ren, Y.-N. & He, L. Tunable lattice reconstruction and bandwidth of flat bands in magic-angle twisted bilayer graphene, Physical Review Letters 125, 236102 (2020).

8.      Han, S.; Qiao, J.-B.; Hou, L.-F.; Liu, Y.-W.; Zhang, Y.; Guo, Z.-H.; Yin, L.-J.; Ren, Y.-N.; Ji, W. & He, L. Robust two-dimensional ice on graphene built from finite-length water molecular chains, arXiv:2007.00885

9.      Yin, L.-J.; Shi, L.-J.; Li, S.-Y.; Zhang, Y.; Guo, J.-H. & He, L. High-magnetic-field Tunneling Spectra of ABC-stacked Trilayer Graphene on Graphite, Physical Review Letters 122, 146802 (2019).

10.      Li, S.-Y.; Zhang, Y.; Yin, L.-J. & He, L. Scanning tunneling microscope study of quantum Hall isospin ferromagnetic states in the zero Landau level in a graphene monolayer, Physical Review B 100, 085437 (2019).

11.   Qiao, J.-B.; Yin, L.-J. & He, L. Twisted graphene bilayer around the first magic angle engineered by heterostrain, Physical Review B 98, 235402 (2018).

12.   Zhang, Y.; Qiao, J.-B.; Yin, L.-J. & He, L. High-resolution tunneling spectroscopy of ABA-stacked trilayer graphene, Physical Review B 98, 045413 (2018).

13.   Zuo, W.-J.; Qiao, J.-B.; Ma, D.-L.; Yin, L.-J.; Sun, G.; Zhang, J.-Y.; Guan, L.-Y. & He, L. Scanning tunneling microscopy and spectroscopy of twisted trilayer graphene, Physical Review B 97, 035440 (2018).

14.   Li, S.-Y.; Bai, K.-K.; Zuo, W.-J.; Liu, Y.-W.; Fu, Z.-Q.; Wang, W.-X.; Zhang, Y.; Yin, L.-J.; Qiao, J.-B. & He, L. Tunneling Spectra of a Quasifreestanding Graphene Monolayer, Physical Review Applied 9, 054031 (2018).

15.   Li, S.-Y.; Liu, K.-Q.; Yin, L.-J.; Wang, W.-X.; Yan, W.; Yang, X.-Q.; Yang, J.-K.; Liu, H.; Jiang, H. & He, L. Splitting of Van Hove singularities in slightly twisted bilayer graphene, Physical Review B 96, 155416 (2017).

16.   Yin, L.-J.; Wang, W.-X.; Zhang, Y.; Ou, Y.-Y.; Zhang, H.-T.; Shen, C.-Y. & He, L. Observation of chirality transition of quasiparticles at stacking solitons in trilayer graphene. Physical Review B (Rapid Communication) 95, 081402(R) (2017).

17.   Yin, L.-J.; Bai, K.-K.; Wang, W.-X.; Li, S.-Y.; Zhang, Y. & He, L. Landau quantization of Dirac fermions in graphene and its multilayers. Frontiers of Physics 12, 127208 (2017). (Invited review)

18.   Yin, L.-J.; Jiang, H.; Qiao, J.-B. & He, L. Direct imaging of topological edge states at a bilayer graphene domain wall. Nature Communications 7, 11760 (2016). Google Scholar Citations: 185

19.   Yin, L.-J.; Zhang, Y.; Qiao, J.-B.; Li, S.-Y. & He, L. Experimental observation of surface states and Landau levels bending in bilayer graphene. Physical Review B 93, 125422 (2016).

20.   Yin , L.-J.; Qiao, J.-B. & He , L. Structures and Electronic Properties of Twisted Bilayer Graphene. Progress in Physics 36, 65 (2016). (Invited review in Chinese)

21.   Zou, X.#; Huang, C.-W.#; Wang, L.#; Yin, L.-J.# (co-first author); Li, W.; Wang, J.; Wu, B.; Liu, Y.; Yao, Q.; Jiang, C.; Wu, W.-W.; He, L.; Chen, S.; Ho, J. C. & Liao, L. Dielectric engineering of a Boron Nitride/Hafnium oxide heterostructure for high-performance 2D field effect transistors. Advanced Materials 28, 2062 (2016).

22.   Zhang, Y.; Li, S.-Y.; Huang, H.; Li, W.-T.; Qiao, J.-B.; Wang, W.-X.; Yin, L.-J.; Bai, K.-K.; Duan, W. & He, L. Scanning Tunneling Microscopy of the π Magnetism of a Single Carbon Vacancy in Graphene. Physical Review Letters 117, 166801 (2016).

23.   Yan, W.; Li, S.-Y.; Yin, L.-J.; Qiao, J.-B.; Nie, J.-C. & He, L. Spatially resolving unconventional interface Landau quantization in a graphene monolayer-bilayer planar junction. Physical Review B 93, 195408 (2016).

24.   Yin, L.-J.; Qiao, J.-B.; Zuo, W.-J.; Li, W.-T. & He, L. Experimental evidence for non-Abelian gauge potentials in twisted graphene bilayers. Physical Review B (Rapid Communication) 92, 081406(R) (2015). Google Scholar Citations: 84

25.   Yin, L.-J.; Qiao, J.-B.; Wang, W.-X.; Zuo, W.-J.; Yan, W.; Xu, R.; Dou, R.-F.; Nie, J.-C. & He, L. Landau quantization and Fermi velocity renormalization in twisted graphene bilayers. Physical Review B (Rapid Communication) 92, 201408(R) (2015). Google Scholar Citations: 75

26.   Yin, L.-J.; Li, S.-Y.; Qiao, J.-B.; Nie, J.-C. & He, L. Landau quantization in graphene monolayer, Bernal bilayer, and Bernal trilayer on graphite surface. Physical Review B 91, 115405 (2015). Google Scholar Citations: 77

27.   Yin, L. J.; Wang, W. X.; Feng, K. K.; Nie, J. C.; Xiong, C. M.; Dou, R. F. & Naugle, D. G. Liquid-assisted tip manipulation: fabrication of twisted bilayer graphene superlattices on HOPG. Nanoscale 7, 14865 (2015).

28.   Xu, R.#; Yin, L.-J.# (co-first author); Qiao, J.-B.; Bai, K.-K.; Nie, J.-C. & He, L. Direct probing of the stacking order and electronic spectrum of rhombohedral trilayer graphene with scanning tunneling microscopy. Physical Review B 91, 035410 (2015).

29.   Wang, W.-X.#; Yin, L.-J.# (co-first author); Qiao, J.-B.; Cai, T.; Li, S.-Y.; Dou, R.-F.; Nie, J.-C.; Wu, X. & He, L. Atomic resolution imaging of the two-component Dirac-Landau levels in a gapped graphene monolayer. Physical Review B 92, 165420 (2015).

30.   Li, S.-Y.; Bai, K.-K.; Yin, L.-J.; Qiao, J.-B.; Wang, W.-X. & He, L. Observation of unconventional splitting of Landau levels in strained graphene. Physical Review B 92, 245302 (2015).

31.   Yin, L.-J.; Qiao, J.-B.; Wang, W.-X.; Chu, Z.-D.; Zhang, K. F.; Dou, R.-F.; Gao, C. L.; Jia, J.-F.; Nie, J.-C. & He, L. Tuning structures and electronic spectra of graphene layers with tilt grain boundaries. Physical Review B 89, 205410 (2014).

32.   Meng, L.; Yan, W.; Yin, L.-J.; Chu, Z. D.; Zhang, Y.-F.; Feng, L.; Dou, R.-F. & Nie, J.-C. Tuning the interlayer coupling of the twisted bilayer graphene by molecular adsorption. J. Phys. Chem. C 118, 6462 (2014).


奖励与荣誉

  • 湖湘青年英才(2021)

  • 湖南省优青(2021)

  • 湖南大学优秀教师新人奖(2022)

  • 第十二届中国大学生年度人物提名(2017)

  • 北京市优秀毕业生(2017、2014)

  • 北京师范大学优秀博士学位论文(2018)、北京师范大学励耘奖学金(一等,2016)、博士生国家奖学金(2016、2015)


  • 部分学术邀请报告:

    1. 全国电子显微学学术年会(2021、2020、2017);

    2. 中国物理学会秋季学术会议(2019);

    3. Nano-Micro Conference 2018 (Winner of Innovation Award)。