首页人员结构 → Xinghua Lu (陆兴华)

 

Xinghua Lu (陆兴华)   

Professor and Deputy Director

State Key Laboratory for Surface Physics, Institute of Physics, CAS

Associate Editor

Review of Scientific Instruments, American Institute of Physics

 

Education

1999–2006,  Ph.D.,  Physics Department, University of California, Berkeley

1996–1999,  M.S.,  Department of Modern Applied Physics, Tsinghua University, Beijing

1992–1996,  B.S.,  Department of Modern Applied Physics, Tsinghua University, Beijing

 

Research Experience

2008–present, Group Leader, Institute of Physics, CAS

                ● Molecular dynamics with ultrafast laser assisted STM

                ● Single spin detection and control

                ● DNA manipulation in nanopore

2006–2008, Postdoc, Department of Physics, Harvard University

                    Advisor: Prof. Jene Golovchenko and Prof. Daniel Branton

                ● STM/STS Study of DNA electronic structures

2001–2006, Ph.D., Department of Physics, University of California, Berkeley

                    Advisor: Prof. Michael F. Crommie

                ● STM/STS Study of Carbon Nano Structures

                ● Design and Fabrication of Spin-Resolved STM

                ● STM/STS Study of Spin Dynamics at the Atomic and Molecular Scale

2000–2001, Graduate, Department of Physics, University of California, Berkeley

                    Advisor: Prof. Peter Yu

                ● Photoluminescence Study of Semiconductor Thin Films

1996–1999, Graduate, Department of Modern Applied Physics, Tsinghua University, Beijing

                    Advisor: Prof. Hu Huang and Prof. Shiqun Li

                ● Quantum Optics in Photonic Crystals

 

Selected Publications

[1] 电子自旋共振扫描隧道显微镜, 郭阳, 李健梅, 陆兴华, 物理, 44, 161 (2015).

[2] Four-fold Raman enhancement of 2D band in twisted bilayer graphene: evidence for a doubly degenerate Dirac band and quantum interference, Yanan Wang, Zhihua Su, Wei Wu, Shu Nie, Xinghua Lu, Haiyan Wang, Kevin McCarty, Shin-shem Pei, Francisco Robles-Hernandez, Viktor G Hadjiev, Jiming Bao, Nanotechnology, 25, 335201 (2014).

[3] 深紫外固态激光源前沿装备研制, 曹凝, 金鹏, 王占国, 陆兴华, 姚冠辉, 詹文山, 中国科学院院刊, 29, 507 (2014).

[4] Detection and analysis of DNA recapture through a solid-state nanopore, Ying Hu, Zhi Zhou, Xinyan Shan, Xinghua Lu, Chinese Science Bulletin 59(35), 4953-4959(2014).

[5] Raman Spectrum of Epitaxial Graphene Grown on Ion Beam Illuminated 6H-SiC (0001), ZHOU Zhi, HU Ying, SHAN Xin-Yan, LU Xing-Hua, Chinese Physics Letters 31(11), 116801 (2014).

[6] Precise Identification and Manipulation of Adsorption Geometry of Donor−π−Acceptor Dye on Nanocrystalline TiO2 Films for Improved Photovoltaics, Fan Zhang, Wei Ma, Yang Jiao, Jingchuan Wang, Xinyan Shan, Hui Li, Xinghua Lu, and Sheng Meng, ACS Applied Materials & Interfaces 6, 22359 (2014).

[7] DNA Translocation through Hydrophilic Nanopore in Hexagonal Boron Nitride, Zhi Zhou, Ying Hu, Hao Wang, Zhi Xu, Wenlong Wang, Xuedong Bai, Xinyan Shan & Xinghua Lu, Scientific Reports 3, 3287 (2013).

[8] Controlling Adsorption Structure of Eosin Y Dye on Nanocrystalline TiO2 Films for Improved Photovoltaic Performances, Fan Zhang, Feng Shi, Wei Ma, Fei Gao, Yang Jiao, Hui Li, Jingchuan Wang, Xinyan Shan, Xinghua Lu, and Sheng Meng, The Journal of Physical Chemistry C 117, 14659 (2013).

[9] Origin of Shape Resonance in Second-Harmonic Generation from Metallic Nanohole Arrays,       Ben-Li Wang, Rui Wang, R. J. Liu, X. H. Lu, Jimin Zhao & Zhi-Yuan Li, Scientific Reports 3, 2358 (2013)

[10] Resonance Raman spectroscopy of G-line and folded phonons in twisted bilayer graphene with large rotation angles. Yanan Wang, Zhihua Su, Wei Wu, Shu Nie, Nan Xie, Huiqi Gong, Yang Guo, Joon Hwan Lee, Sirui Xing, Xiaoxiang u, Haiyan Wang, Xinghua Lu, Kevin McCarty, Shin-shem Pei, Francisco Robels-Hemandez, Viktor G. Hadjiev, Jiming Bao, Applied Physics Letters 103, 123101 (2013).

[11] Detecting Larmor Precession of a Single Spin with a Spin-Polarized Tunneling Current. GUO Xiao-Dong, DONG Li, GUO Yang, SHAN Xin-Yan, ZHAO Ji-Min, LU Xing-Hua, CHIN. PHYS. LETT., 30(1),017601 (2013).

[12] Visualization of a Maze-Like Reconstruction of Graphene on a Copper Surface at the Atomic Scale. XIE Nan, GONG Huiqi, ZHOU Zhi, GUO Xiao-Dong, YAN Shi-Chao, SUN Qian, XING Sirui, WU Wei, PEI Shin-shem, BAO Jiming, SHAN Xin-Yan, GUO Yang, LU Xing-Hua, CHIN. PHYS. LETT., 30(5),056802(2013).

[13] Tip expansion in a laser assisted scanning tunneling microscope. Nan Xie, Huiqi Gong, Shichao Yan, Jimin Zhao, Xinyan Shan, Yang Guo, Qian Sun, Xinghua Lu, Appl. Phys. Lett., 101, 213104(2012).

[14] Turning on and off the Rotational Oscillation of a Single Porphine Molecule by Molecular Charge State. Shichao Yan, Zijing Ding, Nan Xie, Huiqi Gong, Qian Sun, Yang Guo, Xinyan Shan, Sheng Meng, Xinghua Lu, ACS Nano, 6(5), 4132-4136 (2012).

[15] Mapping the Diffusion Potential of Reconstructed Au(111) Surface at Nanometer Scale with 2D Molecular Gas. YAN Shi-Chao, XIE Nan, GONG Hui-Qi, SUN Qian, GUO Yang, SHAN Xin-Yan, LU Xing-Hua, CHIN. PHYS. LETT., 29(4), 046803 (2012).

[16] Purely Coherent Nonlinear Optical Response in Solution Dispersions of Graphene Sheets. Rui Wu, Yingli Zhang, Shichao Yan, Fei Bian, Wenlong Wang, Xuedong Bai, Xinghua Lu, Jimin Zhao, and Enge Wang, NANO LETTERS, 11(12), 5159-5164 (2011).

[17] Local Electronic Properties of Titanocene Chloride Dimer Molecules on a Metal Surface. Ryan Yamachika, Xinghua Lu, Daniel Wegner, Yayu Wang, Andre Wachowiak, Michael Grobis, Lianne M. C. Beltran, Jeffrey R. Long, Mark Pederson, and Michael F. Crommie, Journal of Physical Chemistry C, 113(2), 677 (2009).

[18] Spatially Resolved Electronic and Vibronic Properties of Single Diamondoid Molecules. Yayu Wang, Emmanouil Kioupakis, Xinghua Lu, Daniel Wegner, Ryan Yamachika, Jeremy E. Dahl, Robert M. K. Carlson, Steven G. Louie & Michael F. Crommie, Nature Materials 7, 38 (2007).

[19] Bimodal Electronic Structure of Isolated Co on Pt(111). Y. Yayon, Xinghua Lu, M. F. Crommie, Physical Review B 73, 155401 (2006).

[20] Spatially Dependent Inelastic Tunneling in a Single Metallofullerene. M. Grobis, K. H. Khoo, R. Yamachika, Xinghua Lu, K. Nagaoka, Steven G. Louie, M. F. Crommie, H. Kato, and H. Shinohara, Phys. Rev. Lett. 94, 136802 (2005).

[21] Charge Transfer and Screening in Individual C60 Molecules on Metal Substrates: A Scanning Tunneling Spectroscopy and Theoretical Study. Xinghua Lu, M. Grobis, K. H. Khoo, Steven G. Louie, and M. F. Crommie, Phys. Rev. B, 70, 115418 (2004).

[22] Spatially Mapping the Spectral Density of a Single C60 Molecule. Xinghua Lu, M. Grobis, K. H. Khoo, Steven G. Louie, and M. F. Crommie, Phys. Rev. Lett. 90, 096802 (2003).

[23] Evidence for a Type-II Band Alignment Between Cubic and Hexagonal Phases of GaN. X. H. Lu, P. Y. Yu, L. X. Zheng, S. J. Xu, M. H. Xie, and S. Y. Tong, Appl. Phys. Lett. 82, 1033 (2003).

[24] Local Electronic Properties of a Molecular Monolayer: C60 on Ag(001). M. Grobis, X. Lu, and M. F. Crommie, Phys. Rev. B 66, 161408 (2002).

 

Patents

[1] 一种用于扫描隧道显微镜的光收集装置,发明专利号:201010160542.7

[2] 一种用于控制单个生物分子在纳米孔中运动的系统及方法,发明专利号:201110205106.1

[3] 超小2nm直径金属纳米孔的超快激光脉冲法制备,专利申请号:201110139326.9

[4] 亚脉冲宽度的2飞秒精度超快时间分辨系统,专利申请号:201110107560.3

[5] 一种真空精密位移装置,专利申请号:201210160407.1

[6] 一种真空摇摆机械手,专利申请号:201220708824.0

[7] 一种真空低温恒温器,专利申请号:201210367868.6

[8] 一种抓取和释放样品托的真空机械手,专利申请号:201210160383.X

[9] 一种制备具有可调纳米孔的金属薄片的方法,专利申请号:201210526026.0

[10] 一种扫描隧道显微镜扫描头,专利申请号:201310163003.2

[11] 一种氮化硼纳米孔传感器及其制造方法,专利申请号:201410051811.4

[12] 一种纳米孔中瞬态电流的补偿方法和补偿电路,专利申请号:201410527668.1

[13] 一种悬空石墨烯的制备方法,专利申请号:201510122914.X

[14] 2纳米孔径的超薄固态纳米孔及其应用,已提交。