Micro-Nano Electronics

  • Name:Chong Lei
  • Title:Assistant Researcher
  • Office:comprehensive lab building, room 2-311
  • Office Phone:+86-021-34204315
  • Email:leiqhd@sjtu.edu.cn
  • Website:

Research Field

Weak magnetic field detection technology, magnetic micro-nano electronic devices and biomolecular detection technology

Education

Ph. D. solid electronics and microelectronics (March, 2004 ― May, 2009)
Research Institute of Micro/Nano Science and Technology, Shanghai Jiao Tong University, Shanghai
Approach: MEMS magnetic sensor; Magnetic film; RF MEMS
Dissertation: Key Technique of MEMS Micro Fluxgate Sensor
Advisor: Professor Yong Zhou

M.S. material physics and chemistry (September, 1999 ― January, 2002)
Yanshan University, Qinhuangdao
Approach: R&D of Tl series high-temperature superconductor film

B. S. Metal erode and protection (September, 1995 ― June, 1999)
Yanshan University, Qinhuangdao

Work experience

08/2000 - 05/2002 student, INSTITUTE OF PHYSICS, CHINESE ACADEMY OF SCIENCES (CAS)
06/2002 - 02/2004 staff, FUJIAN INSTITUTE OF RESEARCH ON THE STRUCTURE OF MATTER, CHINESE ACADEMY OF SCIENCES (CAS)
08/2009- staff, Shanghai Jiao Tong University

Research

1. weak magnetic field detection technology
2. magnetic micro/nano electronic devices and high-precision magnetometer
3. micro bio-magnetic detection system and its application in the field of major disease diagnosis and food safety

Awards and Honors

Teaching

Thin film physics
This course mainly introduces the manufacturing technology of thin film and thin film physics based content, introduce the basic theory of thin film. Main contents include the preparation of various kinds of thin film technology and monitoring and testing technology, thin film growth process and formation mechanism, the structure and properties of thin films, etc., and as far as possible reflect the current progress of membrane science and technology.

Publications

[1] Shaotao Zhi, Zhu Feng, Lei Guo, Chong Lei*, Yong Zhou*, Effect of field annealing induced magnetic anisotropy on the performance of meander-core orthogonal fluxgate sensor, Physica Status Solidi A, accepted, 2018. IF: 1.795.
[2] Zhu Feng, Shaotao Zhi, Lei Guo, Chong Lei*, Yong Zhou*, A novel integrated microfluidic platform based on micro-magnetic sensor for magnetic beads manipulation and detection, Microfluidics and Nanofluidics, accepted, 2018. IF: 2.384.
[3] Lei Guo, Cai Wang, Shaotao Zhi, Zhu Feng, Chong Lei, Yong Zhou, A sensitive and innovative detection method for rapid C-reactive proteins analysis based on a micro-fluxgate sensor system, PLOS ONE, V13, n3, pp. e0194631, 2018. IF: 2.766.
[4] Chong Lei, Xue-cheng Sun, Yong Zhou, Noise analysis and improvement of a micro-electro-mechanical-systems fluxgate sensor, Measurement, V122, pp. 1-5, 2018. IF: 2.218.
[5] Lei Guo, Cai Wang, Shaotao Zhi, Zhu Feng, Chong Lei*, Yong Zhou*, Wide linearity range and highly sensitive MEMS-based micro-fluxgate sensor with double-layer magnetic core made of Fe–Co–B amorphous alloy, Micromachines, V8, n12, pp.352, 2017. IF: 2.222.
[6] Lei Guo, Zhen Yang, Shaotao Zhi, Zhu Feng, Chong Lei, Yong Zhou*, Sensitive detection of cardiac troponin T based on superparamagnetic bead-labels using a flexible micro-fluxgate sensor, RSC Advances, V7, pp.52327, 2017. IF: 2.936.
[7] Shaotao Zhi, Zhu Feng, Lei Guo, Chong Lei*, Yong Zhou*, Investigation of a novel MEMS orthogonal fluxgate sensor fabricated with Co-based amorphous ribbon core, Sensors and Actuators A: Physical, V267, pp.121-126, 2017. IF: 2.311.
[8] Xue-cheng Sun, Zhu Feng, Shaotao Zhi, Chong Lei*, Di Zhang, Yong Zhou*, An integrated microfluidic system using a micro-fluxgate and micro spiral coil for magnetic microbeads trapping and detecting, Scientific Reports, V7, pp.12967, 2017. IF: 4.122.(Top 100 in Scientific Reports Chemistry papers in 2017)
[9] Lei Guo, Shaotao Zhi, Xue-cheng Sun, Chong Lei*, Yong Zhou*, Ultrasensitive detection of bioanalytes based on signal amplification of coil-integrated giant magnetoimpedance biosystems, Sensors and Actuators B: Chemical, V247, pp.1-10, 2017. IF: 5.667.
[10] Tao Wang, Yong Zhou, Chong Lei, Jun Luo, Shaorong Xie, Huayan Pu, Magnetic impedance biosensor: A review, Biosensors and Bioelectronics, V90, pp.418-435, 2017. IF: 8.173.
[11] Xue-cheng Sun, Shaotao Zhi, Chong Lei*, Yong Zhou*, Investigation of contactless detection using a giant magnetoresistance sensor for detecting prostate specific antigen, Biomedical Microdevices, V18,n4,pp.1-7,2016. IF: 2.077.
[12] Chong Lei, Xue-cheng Sun, Yong Zhou, Reverse optimization of an integrated solenoid fluxgate sensor based on Co-based amorphous soft magnetic ribbon, Journal of Electronic Materials, V45, n10, pp. 5356-5361, 2016. IF: 1.566.
[13] Xue-cheng Sun, Chong Lei*, Lei Guo, Yong Zhou, Sandwich immunoassay for the prostate specific antigen using a micro-fluxgate and magnetic bead labels, Microchimica Acta, V183, n8, pp.2385-2393, 2016. IF:5.705.
[14] Xue-cheng Sun, Chong Lei*, Lei Guo, Yong Zhou*, Separable detecting of Escherichia coli O157H:H7 by a Giant magneto-resistance-based bio-sensing system, Sensors and Actuators B: Chemical, V234, pp.485-492, 2016. IF: 5.667.
[15] Zhen Yang, Yan Liu, Chong Lei*, Xue-cheng Sun, Yong Zhou*, Ultrasensitive detection and quantification of E. coli O157:H7 using a giant magnetoimpedance sensor in an open-surface microfluidic cavity covered with an antibody-modified gold surface, Microchimica Acta, V183, n6, pp.1831-1837, 2016. IF:5.705.
[16] Zhen Yang, Chong Lei*, Xue-cheng Sun, Yong Zhou, Yan Liu, Enhanced GMI effect in tortuous-shaped Co-based amorphous ribbons coated with grapheme, Journal of Materials Science: Materials in Electronics, V27, n4, pp.3493-3498, 2016. IF: 2.324.
[17] Xue-cheng Sun, Chong Lei, Lei Guo, Yong Zhou*, Giant magneto-resistance based immunoassay for the tumor marker carcinoembryonic antigens, Microchimica Acta, V183, n3, pp.1107-1114, 2016. IF: 5.705.
[18] Xue-cheng Sun, Zhen Yang, Chong Lei*, Yan Liu, Lei Guo, Yong Zhou*, An innovative detecting way of Escherichia coli O157H:H7 by a micro-fluxgate-based bio-sensing system, Sensors and Actuators B: Chemical, V221, pp.985-992, 2015. IF: 5.667.
[19] Zhen Yang, Yan Liu, Chong Lei*, Xue-cheng Sun, Yong Zhou*, A flexible giant magnetoimpedance-based biosensor for the determination of the biomarker C-reactive protein, Microchimica Acta, V182, n15, pp.2411-2417, 2015. IF:5.705.
[20] Tao Wang, Lei Guo, Chong Lei*, Yong Zhou, Detection of the magnetite by giant magnetoimpedance sensor, Materials Letters, V158, pp.155-158, 2015. IF: 2.687.
[21] Tao Wang, Lei Guo, Chong Lei*, Yong Zhou, Ultrasensitive determination of carcinoembryonic antigens using a magnetoimpedance immunosensor, RSC Advances, V5, 51330, 2015. IF:2.936.
[22] Chong Lei, Yan Liu, Xue-cheng Sun, Zhen Yang, Yong Zhou, Improved performance of integrated solenoid fluxgate sensor chip using a bi-layer Co-based ribbon core, IEEE Sensors Journal, V15, n9, pp.5010-5014, 2015. IF: 2.617.
[23] Zhen Yang, Jian Lei, Xue-cheng Sun, Chong Lei*, Yong Zhou, Yan Liu, A Dynabeads-labeled immunoassay based on a fluxgate biosensor for the detection of biomarkers, Analytical Methods, V7, 2391, 2015. IF:2.073.
[24] Tao Wang, Chong Lei*, Zhen Yang, Xue-cheng Sun, Yan Liu, Yong Zhou, Meander-shaped magnetoimpedance sensor for measuring inhomogeneous magnetic fringe fields of NiFe films, Applied Physics Letters, V105 172404, 2014. IF: 3.495.
[25] Chong Lei, Xue-cheng Sun, Cui Liu, Jian Lei, Tao Wang, Zhen Yang, Yong Zhou, Detection of Dynabeads in small bias magnetic field by a micro fluxgate-based sensing system, Journal of Applied Physics, V116, 154701, 2014. IF:2.176.
[26] Tao Wang, Zhen Yang, Chong Lei*, Jian Lei, Yong Zhou, Quantitative determination of magnetic beads using a magnetoimpedance-based lab-on-a-chip platform, Journal of Applied Physics, V115, 223901 ,2014. IF:2.176.
[27] Tao Wang, Zhen Yang, Chong Lei, Jian Lei, Yong Zhou, An integrated giant magnetoimpedance biosensor for detection of biomarker, Biosensors and Bioelectronics, V58, pp.338-344, 2014. IF: 8.173.
[28] Jian Lei, Chong Lei*, Tao Wang, Zhen Yang, Yong Zhou*, Investigation of targeted biomolecules in a micro-fluxgate-based bio-sensing system, Biomed Microdevices, V16, n2, pp.237-243, 2013. IF:2.077.
[29] Jian Lei, Chong Lei*, Tao Wang, Zhen Yang, Yong Zhou*, Detection of targeted carcinoembryonic antigens using a micro-fluxgate-based biosensor, Applied Physics Letters, V103, 203705, 2013. IF:3.495.
[30] Jian Lei, Chong Lei*, Tao Wang, Zhen Yang, Yong Zhou*, A MEMS-fluxgate-based sensing system for detection of dynabeads, Journal of Micromechanics and Microengineering, V23, n9, 095005, 2013. IF:1.888.
[31] Tao Wang, Chong Lei, Jian Lei, Zhen Yang, Yong Zhou, Development of an ingenious method for determination of Dynabeads protein A based on a giant magnetoimpedance sensor, Sensors and Actuators B: Chemical, V186, pp.727-733, 2013. IF: 5.667.
[32] Tao Wang, Yong Zhou, Chong Lei, Jian Lei, Zhen Yang, Ultrasensitive detection of Dynabeads protein A using the giant magnetoimpedance effect, Microchim Acta, V180, n13-14, pp.1211-1216, 2013. IF:5.705.
[33] Jian Lei, Chong Lei*, Tao Wang, Zhen Yang, Yong Zhou, Detection of dynabeads using a micro-electro-mechanical-systems fluxgate sensor, Applied Physics Letters, V102, n2, 022413, 2013. IF: 3.495.
[34] Chong Lei, Jian Lei, Zhen Yang, Yong Zhou, Improved micro fluxgate sensor with double-layer Fe-based amorphous core, Microsystem Technologies , V19, n2, pp.167-172, 2013. IF: 1.581.
[35] Chong Lei, Lei Chen, Jian Lei, Xiaohu Yang, Yong Zhou, Low power integrated fluxgate sensor with a spiral magnetic core, Microsystem Technologies, V17, n12, pp.1697-1702, 2011. IF: 1.581.
[36] Lei Chen, Chen-Chen Bao, Hao Yang, Ding Li, Chong Lei, Yong Zhou, Da-Xiang Cui, A prototype of giant magnetoimpedance-based biosensing system for targeted detection of gastric cancer cells, Biosensor and Bioelectronics, V26, pp.3246-3253, 2011. IF: 8.173.
[37] Chong Lei, Ren Wang, Yong Zhou, Zhimin Zhou, MEMS Micro Fluxgate Sensor with Mutual Vertical Excitation Coils and Detection Coils, Microsystem Technologies, V15, pp. 969-972, 2009. IF: 1.581.
[38] Chong Lei, Yong Zhou, Xiao-Yu Gao, Wen Ding, Ying Cao, Hyung Choi, Jonghwa Won, Fabrication of a solenoid-type inductor with Fe-based soft magnetic core, Journal of Magnetism and Magnetic Materials, 2007, V308, pp.284-288. IF:3.046.
[39] Chong Lei, Yong Zhou, Xiao-Yu Gao, Wen Ding, Ying Cao, Zhi-Min Zhou, Hyung Choi, Fabrication of MEMS microinductors for high temperature application, Microelectronics Journal, 2006, v37, n11: 1347-1351. IF: 1.322.
[40] Lei, Chong; Mao, Jiang-Gao,*; Sun, Y. Q.; Dong, Z. C., Novel inorganic-organic hybrids based on oxo-bridged M-6(M) centered octahedral cage. Polyhedron 2005, 24, (2), 295-303. IF: 2.067.
[41] Lei, Chong; Mao, Jiang-Gao,*; Sun, Y. Q., Two isomeric lead(II) carboxylate-phosphonates: syntheses, crystal structures and characterizations. Journal of Solid State Chemistry 2004, 177, (7), 2449-2455. IF: 2.179.
[42] Lei, Chong; Jiang-Gao Mao,*; Sun, Y. Q.; Song, J. L., A novel organic-inorganic hybrid based on an 8-electron-reduced keggin polymolybdate capped by tetrahedral, trigonal bipyramidal, and octahedral zinc: Synthesis and crystal structure of (CH3NH3)(H(2)bipy)[Zn-4(bipy)(3)(H2O)(2)(MO8MoVI)-Mo-V O-4(36)(Po-4)]center dot 4H(2)O. Inorganic Chemistry, 2004, V43, n6, pp.1964-1968. IF: 4.700.
[43] Lei, Chong; Mao, Jiang-Gao*; Sun, Y. Q.; Zeng, H. Y.; Clearfield, A., {Zn-6[MeN(CH2CO2)(CH2PO3)](6)(Zn)}(4-) anion: The first example of the oxo-bridged Zn-6 octahedron with a centered Zn(II) cation. Inorganic Chemistry, 2003, V42, n20, pp.6157-6159. IF: 4.700.

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