杨真博士简介



姓    名:杨 真  

性    别:男

职    称:副教授

任职情况:专任教师

社会兼职:俄罗斯-康德波罗的海联邦大学客座研究员、乌拉尔联邦大学客座研究员

最后学历:博士研究生


 一、学习、工作经历:(大学起)

  •   2004/09-2008/06 长江大学 机械工程学院 工学学士

  •   2008/09-2011/06 昆明理工大学 材料科学与工程学院 工学硕士

  •   2011/09-2016/04 上海交通大学 电子信息与电气工程学院 工学博士

  •   2016/04-2020/10信阳师范学院物理电子工程学院 专任教师 硕士生导师

  •   2016/12-2017/05 南方科技大学 电子与电气工程系 访问助理教授

  •   2018/03-2019/03 俄罗斯-乌拉尔联邦大学 磁学与磁性纳米材料系 博士后

  •   2019/09-2020/10葡萄牙-里斯本微系统与纳米技术研究所(INESC-MN)博士后

  •   2020/10至今    广西师范大学 电子工程学院 专任教师

 二、研究方向:

  •   微机械电子系统MEMS与生物微机械电子系统BioMEMS

  •   基于微磁效应及微流控芯片的生物医疗检测系统

  •   磁性薄膜电子材料与器件

  •   磁学与磁性纳米材料


 三、主讲课程:

《材料物理化学》、《物理前言概论》、《传感器原理与检测技术》、《固体物理》等课程


 四、主持/参加科研、教改项目(标注是在研或已完成):

 1. 欧盟2020地平线项目,德国-美国-葡萄牙合作项目,磁性薄膜识别传感器MagID,2019-2021,1726616欧元 (约1312万),核心成员(完成第一阶段工作)

 2. 俄罗斯-乌拉尔联邦大学博士后项目,GMI磁生物传感器,2018-2019,100万卢布,主持(结项)

 3. 河南省高层次人才海外培养项目,GMI磁传感器生物医疗应用研究,2018-2019,7万,主持(结项)

 4. 河南省自然科学基金面上项目,基于巨磁阻抗效应传感器的沙门氏菌和炭疽杆菌的检测方法研究,2017-2019, 13万,主持(结项)

 5. 河南省留学人员科技择优资助项目, 基于GMI效应的集成微流控系统对心肌肌钙蛋白T的检测研究,2021-2022,3万,主持(在研)

 6. 国家自然科学基金,基于巨磁阻抗效应的心血管疾病生物标志物的新型快速检测方法研究,2013-2016,84万,主研(完成)

 7. 上海交通大学Agri-X基金,食品中主要致病微生物的纳米检测技术的研发,2015-2017,40万, 主研(完成)

 8. 国家科技支撑计划,新型食品安全快速检测传感器与微系统技术,2011-2014,90万,主研(完成)

 9. 民用航天计划,******关键制造技术研究,375万元, 主研(完成)


  1. 发表的主要论文或授权的专利:

  1.  Zhen Yang, E. V. Golubeva, A. A. Chlenova, S.  V. Scherbinin. Magnetic properties and giant magnetoimpedance of amorphous CoFeNiSiB ribbons in a shape of micromeanders. Inorganic Materials: Applied Research. 2020

  2.  Zhen Yang, S. O. Volchkov, Huanhuan Wang, E. V. Golubeva, A. A. Chlenova, S.  V. Scherbinin, G. V. Kurlyandskaya. Magnetoimpedance effect in the ribbon-based patterned soft ferromagnetic meander-shaped elements for sensor application. Sensors, 19, 2468,2019

  3.  Zhen Yang, et al, A multi-region bio-magnetic measurement system for cardiac biomarkers myoglobin and C-reactive protein. Sensors, 18(6), 1765,2018

  4.  Zhen Yang, et al, Detection of cardiac biomarker myoglobin with an integrated giant magnetoimpedance biosensor, Analytical Methods, 9, 3636-3642, 2017

  5. Zhen. Yang, Fei. Wang, ‘MEMS Magnetic Biosensors’ in ‘Advances in Biosensors: Reviews’, Spain ISBN: 978-84-697-3467-4, 2017.Book chapter

  6.  Zhen Yang, et al, 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, 183: 1831-1837, 2016

  7.  Zhen Yang, et al, Enhanced GMI effect in tortuous-shaped Co-based amorphous ribbons coated with graphene. Journal of Materials Science: Materials in Electronics, 27(4): 3493–3498, 2016

  8. Zhen Yang, et al, Improved performance of the micro planar double-axis fluxgate sensors with different magnetic core materials and structures. Microsystem Technologies, 22(9): 2341-2347, 2016

  9.  Zhen Yang, et al, A flexible giant magnetoimpedance-based biosensor for the determination of the biomarker C-reactive protein, Microchimica Acta, 182(15-16): 2411-2417, 2015

  10.  Zhen Yang (equal contribution), et al, An innovative detecting way of Escherichia coli O157H:H7 by a micro-fluxgate-based bio-sensing system, Sensors and Actuators B: Chemical, 221: 985-992,2015

  11.  Zhen Yang, et al, A giant magnetoimpedance-based biosensor for sensitive detection of Escherichia coli O157:H7, Biomedical Microdevices, 17(1): 1-8, 2015

  12. Zhen Yang, et al, A GMI biosensing platform based on Co-based amorphous ribbon for detection of  

magnetic Dynabeads. Analytical Methods.7(16): 6883-6889, 2015

  1.  Zhen Yang, et al, A Dynabeads-labeled immunoassay based on a fluxgate biosensor for detection of  

 biomarkers, Analytical Methods, 7, 2391 – 2398, 2015

  1.  Zhen Yang, et al, Effect of magnetic field annealing and size on the giant magnetoimpedance in micro-patterned Co-based ribbon with a meander structure, Applied Physics A., 116: 1847-1851,2014

  2.  Zhen Yang, et al, Study on the giant magnetoimpedance effect in micro-patterned Co-based amorphous ribbons with single strip structure and tortuous shape, Microsystem Technologies. 1432-1858,2014

  3.  Zhen Yang, et al. Effect of annealing orientation on the giant magnetoimpedance in micro-patterned Co-based ribbon, Solid-State and Integrated Circuit Technology (ICSICT), 2014 12th IEEE International Conference on. IEEE, 2014: 1-3.

  4.  Zhen Yang,et al.  Detection of C-reactive protein based on a Dynabeads-labeled sandwich immunoassay by using a GMI biosensor, Bioinformatics and Biomedical Engineering: New Advances: Proceedings of the 9th International Conference on Bioinformatics and Biomedical Engineering (iCBBE 2015), 2015: 265.

  5.  Zhen Yang,et al. A Study on Giant Magnetoimpedance Effect in VITROVAC 6025Z Micro-patterned Ribbons, MATEC Web of Conferences. EDP Sciences, 2016, 88: 01003.

  6.  Zhen Yang, et al. Giant magnetoimpedance biosensor for detection of cardiac biomarker myoglobin. The 11th IEEE-EMBS International Summer School and Symposium on Medical Devices and Biosensors (MDBS' 2017)

  7.  Zhen Yang, et al. Detection of cardiac biomarkers myoglobin and C-reactive protein by a giant magnetoimpedance-based biosensing system. The Moscow International Symposium on Magnetism (MISM) 2017

  8.  Zhen Yang, et al. Magnetic properties and the giant magnetoimpedance effect in the MEMS-Based micropatterned CoFeNiSiB amorphous ribbons. Baikal International Conference 'Magnetic Materials. New Technologies'.2018

  9.  Tao Wang,Zhen Yang, et al, An integrated giant magnetoimpedance biosensor for detection of biomarker, Biosensors and Bioelectronics, 58: 338–344,2014

  10.  Lei Guo, Zhen Yang et al, A sensitive and innovative detection method for rapid C-reactive proteins analysis based on a micro-fluxgate sensor system, PLOS ONE, 2018

  11.  Xinei Dong, Zhen Yang, et al, ZnO-templated N-doped holey graphene for efficient lithium ion storage performace, Materials Chemistry and Physics, Materials Chemistry and Physics. 2018, 205: 487-493

  12.  Xinei Dong, Zhen Yang, et al, Densely-stacked N-doped porous carbon monolith derived from sucrose for high-volumetric energy storages, Electrochimica Acta, 251, 2017, 263–269

  13.  Lei Guo, Zhen Yang et al, Sensitive detection of cardiac troponin T based on superparamagnetic bead-labels using a flexible micro-fluxgate sensor, RSC Advance, 2017, 7, 52327

  14.  Tao Wang, Zhen Yang, et al, Quantitative determination of magnetic beads using a magnetoimpedance-based lab-on-a-chip platform, Journal of applied physics, 115(22): 223901,2014

  15.  Tao Wang, Zhen Yang, et al, A giant magnetoimpedance sensor for sensitive detection of streptavidin-coupled Dynabeads, Physica Status Solid (a), 211:1389-1394, 2014


 五、获奖情况:

  1.  上海市优秀博士毕业生,

 2. 俄罗斯-乌拉尔联邦大学优秀博士后奖



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