Language : English
王桂强
  • Personal Information

    Lecturer
    Supervisor of Master's Candidates
    Date of Birth:1990-12-06
    E-Mail:
    Date of Employment:2019-07-09
    School/Department:生物医学工程系
    Education Level:With Certificate of Graduation for Doctorate Study
    Business Address:科技楼610
    Gender:Male
    Degree:Doctoral Degree in Science
    Status:Employed
  • Profile

    王桂强,博士,安徽凤阳人。2014年7月本科毕业于中央民族大学,获得理学学士学位。2019年7月毕业于清华大学(推免保送直博生),获得理学博士学位。2019年7月,进入合肥工业大学仪器科学与光电工程学院工作至今。已在Sens. Actuators B、Opt. Lett.、IEEE Sens. J.和Adv. Mater. Interfaces等国际著名学术期刊上发表20多篇学术论文。


    研究领域

           本课题聚焦超灵敏光学检测和成像研究,传感原理包括表面等离子体共振、光波导、偏振干涉以及量子弱测量等,工作内容涉及:1、芯片结构优化、制备、修饰;2、光路搭建、调试,LabVIEW控制软件编写调试;3、生物大分子(核酸、蛋白)以及小分子(葡萄糖、重金属离子、气体分子等)检测。通过本课题组系统地学习和实践,可掌握该领域基础知识,具备独立从事相关研究的能力。


    开设课程

           本科生:《生物医学微流控器件》、《电磁场理论与建模仿真》和《医学信息系统》

           研究生:《生物芯片技术与应用》


    科研项目

    1. 国家自然科学基金委员会, 青年科学基金项目(C类)[原青年科学基金项目], 62205097, 基于耦合双峰的高灵敏SPR型纳米结构光波导生物传感方法研究, 2023-01-01 至 2025-12-31, 30万元, 在研, 主持

    2. 安徽省科学技术厅, 安徽省自然科学基金项目-青年项目, 2208085QF211, 新型双峰耦合SPR生物传感研究及其在金-电介质结构中的应用, 2022-01 至 2023-12, 10万元, 结题, 主持

    3. 安徽省科学技术厅, 省科技重大专项, 202203a07020013, 恶性肿瘤实时快速准确的磁传感早期诊断方法, 2022-05 至 2025-04, 150万元, 在研, 参与

    4. 合肥市科学技术局, 合肥市自然科学基金项目, 2021004, 面向糖尿病无创血糖检测的光纤/表面等离激元微纳耦合界面的无酶、高灵敏葡萄糖光学生物传感器, 2021-07 至 2023-06, 10万元, 结题, 参与

    5. 合肥工业大学, 学术新人提升B计划, JZ2023HGTB0274, 面向环境重金属检测的便携式弱测量传感系统研究, 2023-04 至 2024-12, 20万元, 结题, 主持

    6. 合肥工业大学, 学术新人提升A计划, JZ2021HGTA0142, 基于波导结构的弱测量生物传感器研究,2021-04 至 2022-12, 5万元, 结题, 主持

    7. 合肥工业大学, 青年教师科研创新启动专项, JZ2020HGQA0143, 基于广角度谱的SPR型光波导传感器及其应用, 2020-05 至 2022-04, 3万元, 结题, 主持

    参与科技部、基金委等其他多项科研项目


    发表论文

    1. Pengpeng Xie; Xiaoxue Xu; Jiao Ren; Guiqiang Wang*. Highly sensitive intensity-type polarization chiral sensor with reference light. Optics Letters, 2024, 49(18): 5276-5279.

    2. Jiao Ren; Xiaoxue Xu; Pengpeng Xie; Guiqiang Wang*. A Mesoporous Silica Film Based Weak Measurement Sensor for Detection of Small Molecules. IEEE Sensors Journal, 2024, 24(24): 40710-40716.

    3. Guiqiang Wang*; Xiaoxue Xu; Jiao Ren; Pengpeng Xie. Sensing performance enhancement of plasmonic waveguide sensor using a bimodal strategy with digital Gaussian filter. Chemometrics and Intelligent Laboratory Systems, 2024, 245, 105069.

    4. Xiaoxue Xu; Pengpeng Xie; Jiao Ren; Guiqiang Wang*. Realization and optimization of the gold-mesoporous silica based bimodal surface plasmon resonance sensor with digital Gaussian filter. Measurement Science and Technology, 2024, 35(12): 125118.

    5. Guiqiang Wang*; Pengpeng Xie; Xiaoxue Xu. Theoretical optimization of a frequency-domainbased color polarization interference sensor via coupling with a Gaussian beam. Applied Optics, 2023, 62(23): 6147-6155.

    6. Guiqiang Wang*; Kequan Wang; Jiao Ren; Shuang Ma; Zihan Li. A novel doublet-based surface plasmon resonance biosensor via a digital Gaussian filter method, Sensors and Actuators B: Chemical, 2022, 360: 131680.

    7. Guiqiang Wang*; Junjie Shi; Qi Zhang; Ruilong Wang; Liang Huang. Resolution enhancement of angular plasmonic biochemical sensors via optimizing centroid algorithm, Chemometrics and Intelligent Laboratory Systems, 2022, 223: 104531.

    8. Guiqiang Wang*; Liang Huang. Sensitivity enhancement of a silver based surface plasmon resonance sensor via an optimizing graphene-dielectric composite structure, Applied Optics, 2022, 61(3): 683-690.

    9. Chunnan Wang; Ruomei Shao; Guiqiang Wang; Jingru Zhao; Zhou Sha; Shuqing Sun*. Controllable wet etching of porous anodic alumina toward highly ordered hierarchical interfaces, Surface and Coating Technology, 2021, 412: 127016.

    10. Liang, Huang*; Guiqiang Wang; Guoqi Zhan; Pei Pei*. A microfluidic chip integrated with 3D sidewall electrodes and wavy microchannel for cell focusing and separation, Journal of Micromechanics and Microengineering, 2021, 31(12): 125011.

    11. Guiqiang Wang; Chunnan Wang; Ruomei Shao; Shuqing Sun*. Fabrication of orderly porous anodic alumina optical waveguide sensor via interface hydrophilic treatment for the detection of small and large molecules, Advanced Materials Interfaces, 2020, 7(15): 2000622.

    12. Guiqiang Wang*; Shuqing Sun. Fabrication of mesoporous silica film based optical waveguide sensor for detection of small molecules, Applied Optics, 2020, 59(13): 3933-3941.

    13. Ruomei Shao; Chunnan Wang; Guiqiang Wang; Jingru Zhao; Shuqing Sun*. A Highly Accurate, Stretchable Touchpad for Robust, Linear, and Stable Tactile Feedback, Advanced Materials Technologies, 2020, 5(4): 1900864.

    14. Guiqiang Wang; Chunnan Wang; Shuqing Sun*. An optical waveguide sensor based on mesoporous silica films with a comparison to surface plasmon resonance sensors, Sensors and Actuators B: Chemical, 2018, 255: 3400-3408.

    15. Guiqiang Wang; Chunnan Wang; Rui Yang; Wenlan Liu; Shuqing Sun*. A Sensitive and stable surface plasmon resonance sensor based on monolayer protected silver film, Sensors, 2017, 17(12): 2777.

    16. Chuanju Wang; Guiqiang Wang; Rui Yang; Xiangyu Sun; Hui Ma; Shuqing Sun*. Hydrophilicity reinforced adhesion of anodic alumina oxide template films to conducting substrates for facile fabrication of highly ordered nanorod arrays, Langmuir, 2016, 33(2): 503-509.


    课题组成员

    2024级:孙梦垚(仪器专业,弱测量气体传感器方向)、覃芹(生医专业,SPR偏振成像方向)、马昌伟(生医专业,钙钛矿弱测量传感器方向)

    2023级:任姣(生医专业,微纳结构弱测量方向)

    2022级:徐小雪(仪器专业,双峰型SPR传感器方向,国家奖学金)、谢朋朋(仪表专业,强度型弱测量传感器方向,国家奖学金)


    欢迎对纳米芯片制备和传感应用感兴趣的学生加入,基础要求:本科学过大物,光学部分基础较好。态度是第一位的,特别感兴趣,零基础也能快速上手。


    获奖成果

    2023年,合肥市高层次人才

    2021年,本科生毕设优秀指导教师

    2019年,博士生国家奖学金

    2014年,北京市优秀本科毕业生


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