Name

Xinchao Lu

Gender

Female

Title

Associate professor

Nationality

P. R. China

Education

Ph. D.

E-Mail

luxinchao@ime.ac.cn

Department

E-Health Center

Address

3 Beitucheng West Road, Chaoyang District, Beijing, PR China

Postcode

100029

Tel

010-82995600

Fax

Education Background

Aug. 2006 - Dec. 2009, Ph. D. in Electrical and Computer Engineering, Oklahoma State University, US                                 

Sep. 2000 - Mar. 2003, Master in Physics electronics, Tianjin University                                                                            

Sep. 1996 - July 2000, Bachelor of Engineering in Optoelectronics, Tianjin University                                                                

Professional Experience

May 2012 - Present, Associate Professor, Institute of Microelectronics, Chinese Academy of Sciences                                                                                                            

July 2010 - July 2011, Research Associate, University of Maryland, Baltimore County, US                                                                                                         

Mar. 2003 - Aug. 2006, Optical Engineer, Chinese Electronic-Technology Eleventh Research Institute                                                                                                              

Publications

1.         Ruxue Wei, Liwen Jiang, Xuqing Sun, Hongyao Liu, Xue Wang, Chang Wang, Xinchao Lu*, and Chengjun Huang, “Detecting the morphology of single graphene sheet by dual channel sampling plasmonic imaging,” Optics Express, 28(4): 4686-4693 (2020).

2.         Xuqing Sun, Hongyao Liu, Liwen Jiang, Ruxue Wei, Xue Wang, Chang Wang, Xinchao Lu*, and Chengjun Huang, “Detecting a single nanoparticle by imaging the localized enhancement and interference of surface plasmon polaritons,” Optics Letters, 44(23): 5707-5710 (2019).

3.         Ruxue Wei, Yanwei Wang, Liwen Jiang, Xuqing Sun, Hongyao Liu, Chang Wang, Xinchao Lu*, Weier Lu*, Yang Xia, and Chengjun Huang, “Detection of chemical vapor deposition-prepared graphene by surface plasmon polariton imaging,” Acta Optica Sinica, 39(11): 1124002 (2019). 

4.         Liwen Jiang, Xuqing Sun, Hongyao Liu, Yaqin Chen, Wei Xiong, Chaoqian Zhang, and Xinchao Lu*, “Label-free imaging to single nanoparticle based on evanescent wave in-plane scattering,” Acta Optica Sinica, 38(6): 0624001 (2018).

5.         Xuqing Sun, Hongyao Liu, Yan Yang, Wei Xiong, Yaqin Chen, Liwei Jiang, Nan Li, Xinchao Lu*, Hong Tang, Yang Xia, “Imaging to Single Virus by Using Surface Plasmon Polariton Scattering,” Proceedings of SPIE, 10244, 1024425 (2017).

6.         Shan Yin, Xinchao Lu*, Ningning Xu, Shuang Wang, Yiwen E, Xuecong Pan, Xinlong Xu, Hongyao Liu, Lu Chen, Weili Zhang and Li Wang,  “Spoof surface plasmon polaritons in terahertz transmission through subwavelength hole arrays analyzed by coupled oscillator model,” Scientific Reports, 5, 16440 (2015).

7.         J. R. Knab*, Xinchao Lu, Felipe A. Vallejo, Gagan Kumar, Thomas E. Murphy, and Michael L. Hayden, “Ultrafast carrier dynamics and optical properties of nanoporous silicon at terahertz frequencies,” Optical Materials Express, 4(2): 300-307 (2014).

8.         Xinchao Lu, Carsten Rockstuhl and Weili Zhang*, “Far-infrared properties of hybrid plasmonic geometries,” J. Opt. Soc. Am. A 29(4): 644-648 (2012).

9.         Xinchao Lu, Li Wang*, Weili Zhang*, “Resonant Field Enhancement in Hybrid Plasmonic Geometries,” Terahertz Science and Technology, 5(2): 87-96 (2012).

10.     Xinchao Lu, Jiaguang Han, and Weili Zhang*, “Localized Plasmonic Properties of Subwavelength Geometries Resonating at Terahertz Frequencies,” Selected Topics in Quantum Electronics, IEEE Journal of, 17(1): 119-129 (2011).

11.     Xinchao Lu, Jiaguang Han, and Weili Zhang*, “Transmission field enhancement of terahertz pulses in plasmonic, rectangular coaxial geometries,” Optics Letters, 35(7): 904-906 (2010).

12.     Xinchao Lu and Weili Zhang*, “Terahertz localized plasmonic properties of subwavelength ring and coaxial geometries,” Applied Physics Letter, 94, 181106 (2009).

13.      Xinchao Lu, Jiaguang Han, and Weili Zhang*, “Resonant terahertz reflection of periodic arrays of subwavelength metallic rectangles,” Applied Physics Letter, 92, 121103 (2008).

Research Interests  

Fast and nondestructive detection to nanomaterials, Micro/nano biosensor, Imaging Beyond diffraction limit, Surface plasmon.

Projects and Subjects Participated

1.      Research and development project of scientific research equipment, CAS, “Development the instrument for Label-free tracing to single virus”, 2020.1-2021.12.

2.      State Key Joint Laboratory of Environmental Simulation and Pollution Control, Tsinghua University, “Quantitatively in-situ detection to norovirus in water environment”, 2018.6-2020.6.

3.      National key Research and Development Program of China, “Development the instrument for 3D Optical measuring surface mophology”, 2017.7-2021.6.

4.       Guangzhou Science and Technology Project, “Fast detection to foodborne virus in aquatic product”, 2016.4-2019.4.

5.      Research and Development Project of Scientific Research Equipment, CAS, “Development the instrument for fast, real-time, high sensitivity detection to virus”, 2015.1-2016.12.

6.      Guangdong Science and Technology Project, “Fast imaging to nano-pollutants in water environment”, 2016.1-2018.12.

7.      Beijing Natural Science Foundation, “Fast imaging detection to size and index of single nanoparticles”, 2016.1-2017.12.

8.      Guangdong Science and Technology Project, “High sensitivity and fast imaging detection to virus”, Fast imaging to nano-pollutants in water environment”, 2015.1-2017.12.

9.      National Natural Science Foundation of China, “Controlling the terahertz polarization by using surface plasmons”, 2013.1-2015.12.

10. Key Laboratory of microelectronic devices and integration technology, CAS, “Fast imaging to single nanoparticles by using surface plasmons”, 2013.5-2014.5

Patents Application

1.        Xincaho Lu, Hongyao Liu, Lu Chen, A method and instrument for virus detection by using surface plasmon scattering imaging, Patent number: CN104792735B (Issued).

2.        Xincaho Lu, Hongyao Liu, Lu Chen, A method for imaging nanomaterial by using surface plasmon scattering, Patent number: CN104792746B (Issued).

3.        Hongyao Liu, Xinchao Lu, Lu Chen, A method for the nanoparticle shape detection by using surface plasmon scattering frequency spectrum, Patent number: CN106289094A (Issued).

4.        Liwen Jiang, Xinchao Lu, Xuqing Sun, Hongyao Liu, Wei Xiong, Yaqin Chen, Chaoqiang Zhan, A method to detect single nanoparticle, Patent number: 201711099225.7.

5.        Xinchao Lu, Hongyao Liu, Lu Chen, Le Yang, Yanzhong Ma, Chaoqian Zhang, Xuqing Sun, Liwen Jiang, A method and system for optical detection, Patent number: 201811440899.3.

6.        Hongyao Liu, Xinchao Lu, Lu Chen, Le Yang, Yanzhong Ma, Chaoqian Zhang, Xuqing Sun, Liwen Jiang, A method and system for optical detection, Patent number: 201811440783.X.

7.        Ruxue Wei, Xinchao Lu, Hongyao Liu, Liwen Jiang, Xuqing Sun, Chang Wang, A method and system for imaging to micro-nano structures, Patent number: 201910688799.0.

8.        Hongyao Liu, Xinchao Lu, Xuqing Sun. Liwen Jiang, Ruxue Wei, Chang Wang, A method and system for single nanoparticle detection, Patent number: 201910916762.9.

9.        Hongyao Liu, Chaoqian Zhang, Xinchao Lu, Xuqing Sun. Liwen Jiang, Ruxue Wei, Chang Wang, A method and system for surface plasmon standing wave excitation, Patent number: 201910916516.3.

Honour  

1.        Senior Membership of the Optical Society of America (OSA)

2.      Outstanding Graduate Teaching Assistant Award, Oklahoma State University, (2009).