姓名：郭剑和
职称：助理教授/硕士生导师
电话：**
邮箱：guojianhe@mail.sysu.edu.cn
主要经历：
2019/06-现在：中山大学，生物医学工程，“****”助理教授
2018/09-2019/05：德克萨斯大学奥斯汀分校，材料科学与工程，博后
2012/09-2018/08：德克萨斯大学奥斯汀分校，材料科学与工程，博士
2008/09-2012/06：中国科学技术大学，材料化学，学士
研究简介：
本课题组的主要研究方向是纳米机器人、纳米生物传感、纳米定向传输、纳米操控和微流体技术。通过对电场、磁场和光场在微观尺度下的精密调控，实现功能纳米材料的可控机械运动，并成功地应用在生物分子检测、药物传输和释放、生物分子富集、微流体系统、微纳机电系统等多个领域。

纳米材料制备+药物释放控制 纳米机器人+纳米生物传感 纳米机器人+药物载体运输
纳米机器人的科普简介：https://www.guokr.com/article/454947/（其中包含本课题组工作）
本课题组相关科研成果及其生物医学应用2014年被英国广播公司BBC Focus杂志评为“将会改变未来的十大发明 (10 discoveries that will shape the future)”，2015年入围美国西南偏南(SXSW)盛典的互动创新奖，2016年美国国家科学基金会NSF联合美国国家广播公司NBC进行特别专访，并录制科教片“纳米技术: 超小尺度科学”。课题组负责人郭剑和在2015年获得了美国霍华德休斯医学研究所颁发的HHMI国际学生科研奖学金，该奖每年全美仅45人入选，旨在奖励具有卓越科研创新潜力的年轻****；2018年获得了著名的材料研究学会（MRS）优秀研究生奖，该奖每届全球仅36人入选，旨在表彰获奖者出色的科研成果和优秀的科研能力。
招生信息：
本课题组每年均有硕士研究生保研和考研的招生名额，招生面向相关专业的所有生物医学工程方向。欢迎具备恒心、耐心、决心、信心、专心、细心的本科毕业生加入我们团队。
生物材料方向，要求化学/材料/生物/生物医学工程等相关专业，具备良好的化学和材料基础，掌握基本材料化学实验技能，优先考虑有纳米材料合成科研经验的同学；
生物传感方向，要求化学/材料/生物/电子工程/生物医学工程等相关专业，具备生物与化学检测的基础知识，掌握基本材料化学实验技能，优先考虑有纳米生物传感科研经验的同学；
医疗仪器方向，分别需要流体力学方向和电子信息方向的同学：（1）流体力学方向，要求物理/力学/航天航空/机械工程/生物医学工程等相关专业，具备良好的流体力学基础，熟悉基本的流体力学模拟软件，优先考虑有微纳流体及相关模拟科研经验的同学；（2）电子信息方向，要求电子工程/信息工程/软件工程/生物医学工程等相关专业，具备良好的模电、数电和电子线路基础，掌握基本图像处理和软件编程能力，优先考虑有FPGA、图像处理或人工智能科研经验的同学。
博后招聘：
热烈欢迎具有物理/化学/材料/机械工程/电子工程/信息工程/生物医学工程等专业背景的青年博士加盟本课题组。具有以下领域研究经验的博士将会被优先考虑：纳米传感（光/电/热/磁等）、微纳操控、微纳机器人、微纳流体系统、生物分子检测、药物传输和释放、纳米材料合成等。团队将会提供经费和科研平台支持博后的科研发展。本课题组与海外著名****将有长期的学术交流与合作，聘期内可以为博后提供国外名校的访学机会。请应聘者将个人简历（包括教育背景/科研经历/论文发表等）发送至guojianhe@mail.sysu.edu.cn。博后招聘长期有效。
代表论文：
[1] K. Kim#, X. Xu#, J. Guo#, D. Fan, "Ultrahigh-Speed Rotating Nanoelectromechanical System Devices Assembled from Nanoscale Building Blocks", Nature Communications, 5, 3632 (2014). (IF=12.353, co-first author)
[2] J. Guo, J. J. Gallegos, A. R. Tom, D. Fan, "Electric-Fields Guided Precision Manipulation of Catalytic Nanomotors for Cargo Delivery and Powering Nanoelectromechanical Devices", ACS Nano, 12, 2, 1179-1187 (2018). (IF=13.709)
[3] J. Liu#, J. Guo#, G. Meng, D. Fan, "Superstructural Raman Nanosensors with Integrated Dual Functions for Ultrasensitive Detection and Tunable Release of Molecules", Chemistry of Materials, 30, 5256-5263 (2018) (cover). (IF=9.890, co-first author)
[4] J. Guo, A. Chan, W. Li, D. Fan, "Kirkendall Effect in Creating Three-Dimensional Metal Catalysts for Hierarchically Porous Ultrathin Graphite with Unique Properties", Chemistry of Materials, 29, 4991-4998 (2017). (IF=9.890)
[5] J. Guo, K. Kim, K. Lei, D. Fan, "Ultra-Durable Rotary Micromotors Assembled from Nanoentities by Electric Fields", Nanoscale, 7, 11363-11370 (2015). (IF=7.233)
[6] J. Guo, D. Fan, "Electrically Controlled Biochemical Release from Micro/Nanostructures for In-Vitro and In-Vivo Applications: A Review", ChemNanoMat, 4, 1023-1038 (2018). (IF=3.173)
[7] J. Guo, Y. Xu, X. Chen, S. Yang, "Single-Crystalline C60 Microplates: Preparation, Characterization, and Application as Catalyst Supports for Methanol Oxidation", Fullerenes, Nanotubes and Carbon Nanostructures 23, 424-430 (2015). (IF=1.011)
[8] K. Kim, J. Guo, Z. X. Liang, D. Fan, "Artificial Micro/Nanomachines for Bio-applications: Biochemical Delivery and Diagnostic Sensing", Advanced Functional Materials, 28, ** (2018) (invited review article). (IF=13.325)
[9] W. Li, J. Guo, D. Fan, "Three-Dimensional Graphite-Polymer Flexible Strain Sensors with Ultra-sensitivity and Durability for Real-Time Human Vital Sign Monitoring and Musical Instrument Education", Advanced Materials Technologies, 2, ** (2017) (front cover). (IF=4.622)
[10] K. Kim, J. Guo, Z Liang, F. Q. Zhu, D. Fan, "Man-made Rotary Nanomotors: A Review of Recent Development", Nanoscale, 8, 10471-10490 (2016) (invited review article). (IF=7.233)
[11] K. Kim, J. Guo, X. Xu, D. Fan, "Micromotors with Step-Motor Characteristics by Controlled Magnetic Interactions among Assembled Components", ACS Nano, 9, 548-554 (2015). (IF=13.709)
[12] K. Kim, J. Guo, X. Xu, D. Fan, "Recent Progress on Man-Made Inorganic Nanomachines", Small, 11, 4037-4057 (2015) (invited review article). (IF=9.598)
[13] Y. Xu, J. Guo, T. Wei, X. Chen, Q. Yang, S. Yang, "Micron-Sized Hexagonal Single-Crystalline Rods of Metal Nitride Cluster Fullerene: Preparation, Characterization, and Photoelectrochemical Application", Nanoscale 5, 1993-2001 (2013). (IF=7.233)
[14] C. Zu, L. Li, J. Guo, S. Wang, D. Fan, A. Manthiram, "Understanding the Redox Obstacles in High Sulfur-Loading Li-S Batteries and Design of an Advanced Gel Cathode", Journal of Physical Chemistry Letters, 7, 1392-1399 (2016). (IF=8.709)
[15] W. Li, X. Xu, C. Liu, M. Tekell, J. Ning, J. Guo, J. Zhang, D. Fan, "Ultralight and Binder-Free All-Solid-State Flexible Supercapacitors for Powering Wearable Strain Sensors", Advanced Functional Materials, 25, ** (2017). (inside back cover). (IF=13.325)
[16] X. Ying, X. Chen, F. Liu, X. Chen, J. Guo, S. Yang, "Ultrasonication-Switched Preparation of Dice- and Cubic-Shaped Fullerene Crystals and Their Applications as Catalyst Supports for Methanol Oxidation", Materials Horizons, 2, 411-418 (2014) (front cover). (IF=13.183)
[17] J. Li, Y. Liu, L. Lin, M. Wang, T. Jiang, J. Guo, H. Ding, P. Kollipara, Y. Inoue, D. Fan, B. A. Korgel, Y. Zheng, "Optical Nanomanipulation on Solid Substrates via Optothermally Gated Photon Nudging", Nature Communications, 10, 5672 (2019). (IF=12.353)
[18] Y. Huang, Z. Liang, M. Alsoraya, J. Guo, D. Fan, "Light-Gated Manipulation of Micro/Nanoparticles in Electric Fields", Advanced Intelligent Systems, ** (2020).
发明专利：
[1] D. Fan, J. Ning, X. Xu, J. Guo, "Method for Manufacturing of Three-Dimensional Freestanding Porous Thin-Graphite with Hierarchical Porosity" (US patent granted, US **, May 2018).
[2] D. Fan, K. Kim, J. Guo, "Electrode Design and a Low-Cost Fabrication Method for Assembling and Actuation of Miniature Motors with Ultrahigh and Uniform Speed" (provisional US patent, 15/509, 782, Aug 2017).
[3] D. Fan, W. Li, J. Guo, "Flexible Supercapacitors and Devices Containing the Same" (provisional PCT patent, PCT/US2017/050436, Mar 2018).
书籍著作：
[1] J. Guo, D. Fan, "Electromagnetic Wave Enabled Micro/nanorobotic Devices and Their Applications" Light Robotics: Structured-Mediated Nanobiophotonics, Elsevier (2017).
[2] Z. Liang, J. Guo, D. Fan, "Manipulation, Assembling, and Actuation of Nanomotors by the Electric Tweezers", Robotic Systems and Autonomous Platforms, Elsevier (2018).
rm Speed" (provisional US patent, 15/509, 782, Aug 2017).
[3] D. Fan, W. Li, J. Guo, "Flexible Supercapacitors and Devices Containing the Same" (provisional PCT patent, PCT/US2017/050436, Mar 2018).
书籍著作：
[1] J. Guo, D. Fan, "Electromagnetic Wave Enabled Micro/nanorobotic Devices and Their Applications" Light Robotics: Structured-Mediated Nanobiophotonics, Elsevier (2017).
[2] Z. Liang, J. Guo, D. Fan, "Manipulation, Assembling, and Actuation of Nanomotors by the Electric Tweezers", Robotic Systems and Autonomous Platforms, Elsevier (2018).