邢飞

发布者:物光学院发布时间:2021-07-22浏览次数:4023

» 姓名:邢飞

» 系属:光电系

» 学位:博士

» 职称:副教授

» 专业:电子信息(光学工程方向)

» 导师类别:硕士生导师

» 电子邮箱:xingfei@sdut.edu.cn

» 通讯地址:山东省淄博市张店区山东理工大学西校区#15-305

» 联系方式:

研究方向

1.    低维材料制备、表征;

2.    低维材料光电特性;

3.    低维材料器件及应用。

教育工作经历

1.    2009.09-2014.06,南开大学,光学,博士研究生

2.    2014.09-2016.10,深圳大学,光学工程,博士后

3.    2016.11-2018.03,北京碳世纪科技有限公司,技术副总

4.    2018.04-至今,山东理工大学,副教授

学术兼职

1.    山东省科技进步奖(企业组)、自然科学奖(物理、材料组)会评专家;

2.    Nano LettersAcs sensorsAPLOLOE等期刊审稿人。

主讲课程

1.    《传感器原理与应用》本科生课程

承担项目

1.    山东省青年创新人才引育计划项目21,低维光电材料与器件研究创新团队,2019/10-2022/09200万,在研,带头人

2.    国家自然科学基金青年科学基金项目 61505109,柱矢量光束紧聚焦条件下石墨烯基显微传感成像技术研究,2016/01-2018/1225万,结题,主持。

3.    中国博士后科学基金特别资助项目2016T90798,石墨烯基显微传感成像技术研究及其亚细胞水平应用,2016/06—2016/0915万,结题,主持。

4.    中国博士后科学基金面上项目2015M570721,机械剥离石墨烯的偏振吸收特性及其 亚微米传感应用研究,2015/06—2016/098 万,结题,主持。

论文

1.           Tiange Wu, Junfeng   Shen, Zongwen Li, Fei Xing,*Wei Xin, Zhao Wang, Guowei Liu, Xue Han, Zhongsheng Man, Shenggui Fua*,   “Microfluidic-integrated graphene optical sensors for real-time and ultra-low   flow velocity detection” Applied Surface Science 539 (2021): 148232.

2.           Zongwen Li,   Xiaoyi Zhu, Tiange Wu, Xue Han, Fei Xing,* and Guohe Wang*, “Broadband and Ultrasensitive Graphene-Based   Mechanical Wave Detector with Nanosecond Response Used for Biological   Photoacoustic Imaging” ACS Applied Materials Interfaces, 2020, 12, 17268-17275.

3.           Fang Zhang*, Guowei Liu, Junjie Yuan, Zhengping Wang, Tianhong Tang, Shenggui Fu, Huanian   Zhang, Zhongsheng Man, Fei Xing* Xinguang Xu, “2D graphdiyne: an excellent ultraviolet nonlinear absorption material.”   Nanoscale, 2020.

4.           Tiange Wu,   Junfeng Shen, Zongwen Li, Tingting Zou, Wei Xin,Fei Xing*,   Fang Zhang, Zhongsheng Man, Shenggui Fu. “Graphene-based ultrasensitive   optical microfluidic sensor for the real-time and label-free monitoring of   simulated arterial blood flow.” Optics Express 2020, 28(11), 16594-16604.

5.           Shijie Zhang, Zongwen   Li, Fei Xing*, “Review of Polarization Optical Devices Based on   Graphene Materials” Int. J. Mol. Sci. 2020, 21(5), 1608.

6.           Shigang Wu, Xin   Wang, Zongwen Li,* Shijie Zhang, Fei Xing,* Recent Advances in the Fabrication and Application of Graphene   Microfluidic Sensors. Micromachines 11.12 (2020): 1059.

7.           Zongwen Li,   Wenfei Zhang, Fei Xing*, “Graphene optical biosensors” Int. J. Mol. Sci. 2019, 20(10), 2461.

8.           Tiange Wu,   Tingting Zou, Ye Wang, Wenshuai Jiang, Fei Xing*, JianJun Yang,   Chunlei Guo, “Ultrasensitive optical detection of water pressure in   microfluidics using smart reduced graphene oxide glass” Front. Chem. 2019.

9.  Yijia Wang, Shiwu Zhang, Ting Xu, Tonglin Zhang, Yuru Mo, Jun Liu,   Liqun Yan,Fei Xing*, “Ultra-sensitive and ultra-fast detection   of whole unlabeled living cancer cell responses to paclitaxel with a   graphene-based biosensor.” Sensors and Actuators B: Chemical, 2018.

10.Guiling Shi, Xiaoli Zheng, Shiwu Zhang, Xiaojing Wu, Fei Yu, Yijia   Wang, Fei Xing*, “Kanglaite inhibits EMT caused by TNF-α via   NF-κΒ inhibition in colorectal cancer cells.” Oncotarget, 2018, 9(6), 6771–6779.

11.Guiling Shi, Xiaoli Zheng, Xiaojing Wu, Siqi Wang, Yijia Wang, Fei   Xing*, “All-trans retinoic acid reverses epithelial-mesenchymal   transition in paclitaxel-resistant cells by inhibiting nuclear factor kappa B   and upregulating gap junctions”Cancer Science, 2018.

12.Fei Xing, Yong Yang, Junfeng Shen, Wenshuai Jiang, Zhibo Liu, Siwei Zhu,   Xiaocong Yuan, “Ultra-high sensitivity, multi-parameter monitoring of   dynamical gas parameters using a reduced graphene oxide microcavity.” Sensors and Actuators B: Chemical, 2016, 235,   474480.

13.Fei Xing, Shan Zhang, Yong Yang, Wenshuai Jiang, Zhibo Liu, Siwei Zhu, Xiaocong   Yuan, “Chemically modified graphene films for high-performance optical NO2   sensors.” Analyst, 2016, 141, 4725-4732.

14.Fei Xing, Wei Xin, Wenshuai Jiang,   Zhibo Liu, Jianguo Tian, “A general method for large-area and broadband   enhancing photoresponsivity in graphene photodetectors.” Applied Physics Letters, 2015, 107(16), 163110.

15.Fei Xing, Yong Yang, Siwei Zhu,   Xiaocong Yuan, “Ultrathin reduced graphene oxide films for high performance   optical data storage.” Applied Optics and Pho tonics China (AOPC2015). International Society for Optics and Photonics, 2015,   96730G-96730G-7. (约稿)

16.Fei Xing, Guixian Meng, Qian Zhang,   Leiting Pan, Peng Wang, Zhibo Liu, Wenshuai Jiang, Yongsheng Chen, Jianguo   Tian, “Ultra-Sensitive Flow Sensing of Single Cell by Graphene Optical   Sensor” Nano Letters, 2014, 14(6), 3563-3569.

17.Fei Xing, Xudong Chen, Zhibo Liu, Qian   Zhang, Xiaoqing Yan, Yongsheng Chen, Jianguo Tian, “Transparent and flexible   multi-layer films with graphene recording layers for optical data storage” Applied Physics Letters, 2013, 102, 253501.

18.Fei Xing, Zhibo Liu, Zhichao Deng, Xiangtian Kong, Xiaoqing Yan, Xudong Chen,   Qing Ye, Chunping Zhang, Yongsheng Chen, Jianguo Tian, “Sensitive Real-Time   Monitoring of Refractive Indexes Using a Novel Graphene-Based Optical Sensor” Scientific Reports, 2012 2,908.

◎ 专利

1.    邢飞,闫立群,基于石墨烯表面波的高灵敏多光束折射率探测装置和方法,国际PCT专利,国际申请号码:PCT/CN2017/113650

2.    邢飞,闫立群. 一种基于石墨烯表面波的高灵敏度超快折射率探测装置, NO. CN201621296495.8

3.    邢飞,闫立群. 一种基于石墨烯/氧化石墨烯复合薄膜的湿度传感器, NO. CN201720596979.2 

4.    刘智波,邢飞,叶青,邓志超,田建国。一种基于石墨烯偏振效应的折射率实时测定方法和装置,NO.CN102692393A 

5.    刘智波,邢飞,陈旭东,田建国。一种基于石墨烯偏振特性的多层膜光存储方法,NO. CN103093772A,

6.    邢飞,李宗文,一种金纳米颗粒与量子点复合结构的传感器及系统和方法,NO. CN202010715577.6,

7.    邢飞,李宗文,一种基于表面等离子体的高消光比偏振器,NO. CN202010811337.6,

8.    邢飞,吴田鸽,一种基于石墨烯的流速传感器光学芯片及其应用,NO.CN202010855404.4

9.    邢飞,李宗文,一种自组装可调间隙的金纳米薄膜制备方法,NO.CN202010965751.2

10.邢飞,吴田鸽,一种超导易分散石墨烯粉体的制备方法及其在导电塑料中的应用,NO.CN202110024886.3

11.邢飞,姬广民,一种基于石墨烯的二维异质结的制备方法,NO.CN202110030792.7

12.邢飞,田敬坤,一种利用表面等离子体共振效应提高量子点敏化太阳能电池效率的电池制备方法,NO. CN202110024814.9

13.邢飞,吴田鸽,一种水相增强型剥离法制备石墨烯粉体的方法,NO.CN202110033960.8

14.邢飞,李宗文,一种快速均匀制备大面积石墨烯玻璃的方法,NO. CN202110233075.4

15.邢飞,韩雪,一种基于自组装金纳米薄膜的湿度传感器及其制备方法,NO.CN202110233161.5.

 


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