郭劲宏

邮箱:guojinhong@uestc.edu.cn

教授,副所长

电话:15802894860


教育背景:

2011/08-2014/05 Nanyang Technological University PhD, Biomedical Engineering, Singapore

2006/09-2010/06 University of Electronic Science and Technology of China, BE, Electronic Engineering


工作经历:

2017/08-至今 电子科技大学 医学装备研究所 副所长

2016/01-2016/06   密歇根大学安娜堡 访问教授

2014/11-2016/01 麻省理工学院-新加坡科技设计大学 博士后研究员

2014/5-2014/11 新加坡南洋理工大学 博士后研究员


学术任职:

2018 国际生物医学信息感知与微系统 大会主席;

2018 国际微流控与芯片实验室大会 Particles and Cells 分会主席;

2018 SCI期刊Sensor, Special Issue on Selected Papers from ICBIPM, Guest Editor

2018 SCI期刊Electrophoresis, Special Issue on Microsystem for Biomedical Application, Guest Editor;

2018 SCI期刊Micromachine, Special Issue on Medical Internet of Things, Leading Guest Editor;

2017 SCI期刊IEEE Transaction on Biomedical Circuit and System, Special Issue on Point of Care Diagnosis, Guest Editor;



研究领域:

1.即时诊断 POCT

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2.电化学传感芯片

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3.光化学传感芯片

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4.免疫电化学平台

5.量子免疫荧光平台

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6.医学物联网

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7.微流控芯片平台技术

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8.医学人工智能 (基于BPNN的大规模医学数据挖掘)

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承担科研项目:

1.2017–2018  国际科技合作与交流研发项目/四川省科技厅“智能步态系统的开发与脑卒中患者步行功能评估与训练中的应 用”50万  具体负责 (排序1)



代表性论文:

[1]   Guo J.* Smartphone-Powered Electrochemical Dongle for Point-of-Care Monitoring of Blood β-Ketone[J]. Analytical Chemistry, 2017, 89(17).

[2]   D. Xu, X. Huang, J. Guo*, X. Ma, Automatic Smartphone-based Microfluidic Biosensor System at the Point of Care, Biosensors and Bioelectronics, Available online 21 March 2018, ISSN 0956-5663, https://doi.org/10.1016/j.bios.2018.03.018.

[3]   Guo J.* Uric Acid Monitoring with a Smartphone as the Electrochemical Analyzer[J]. Analytical Chemistry, 2016, 88(24):11986.

[4]   Guo J, Li J L W, Chen Y, et al. RF-Activated Standing Surface Acoustic Wave for On-Chip Particle Manipulation[J]. IEEE Transactions on Microwave Theory & Techniques, 2014, 62(9):1898-1904.

[5]   Shi D, Guo J*, Chen L, et al. Differential microfluidic sensor on printed circuit board for biological cells analysis[J]. Electrophoresis, 2015, 36(16):1854-1858.

[6]   Guo J, Li C M, Kang Y. PDMS-film coated on PCB for AC impedance sensing of biological cells.[J]. Biomedical Microdevices, 2014, 16(5):681-686.

[7]   Guo J, Chen L, Huang X, et al. Dual characterization of biological cells by optofluidic microscope and resistive pulse sensor.[J]. Electrophoresis, 2015, 36(3):420-3.

[8]   Guo J, Ai Y, Cheng Y, et al. Volumetric Measurement of Human Red Blood Cells by MOSFET-based Microfluidic Gate.[J]. Electrophoresis, 2015, 36(16):1862-5.

[9]   Guo J, Pui T S, Rahman A R, et al. 3D numerical simulation of a Coulter counter array with analysis of electrokinetic forces.[J]. Electrophoresis, 2013, 34(3):417-424.

[10] Huang X, Guo J, Wang X, et al. A Contact-Imaging Based Microfluidic Cytometer with Machine-Learning for Single-Frame Super-Resolution Processing[J]. Plos One, 2014, 9(8):e104539.

[11] Guo J, Liu X, Kang K, et al. A Compact Optofluidic Cytometer for Detection and Enumeration of Tumor Cells[J]. Journal of Lightwave Technology, 2015, 33(16):3433-3438.

[12] Xue P, Ye K, Gao J, Guo J, et al. Isolation and elution of Hep3B circulating tumor cells using a dual-functional herringbone chip[J]. Microfluidics & Nanofluidics, 2014, 16(3):605-612.

[13] Guo J, Chen Z, Ban Y, et al. Precise Enumeration of Circulating Tumor Cells Using Support Vector Machine Algorithm on a Microfluidic Sensor[J]. IEEE Transactions on Emerging Topics in Computing, 2017(99):518-525.

[14] Guo J, Ma X, Menon N V, et al. Dual Fluorescence-Activated Study of Tumor Cell Apoptosis by an Optofluidic System[J]. IEEE Journal of Selected Topics in Quantum Electronics, 2014, 21(4):392-398.

[15] Guo J, Chen L, Ai Y, et al. Numerical and experimental characterization of solid-state micropore-based cytometer for detection and enumeration of biological cells.[J]. Electrophoresis, 2015, 36(5):737.

[16] Guo J, Kang Y, Ai Y. Disposable microfluidic channel with dielectric layer on PCB for AC sensing of biological cells[J]. IEEE Transactions on Dielectrics & Electrical Insulation, 2015, 22(3):1439-1443.

[17] Guo J, Kang Y, Ai Y. Disposable microfluidic channel with dielectric layer on PCB for AC sensing of biological cells[J]. IEEE Transactions on Dielectrics & Electrical Insulation, 2015, 22(3):1439-1443.

[18] Ren C, Zhang S, Song D, Guo J*, Kang Y, Ai Y. Disposable microfluidic channel with dielectric layer on PCB for AC sensing of biological cells[J]. IEEE Transactions on Dielectrics & Electrical Insulation, 2015, 22(3):1439-1443..

[19] Guo J, Li H, Chen Y, et al. A Microfluidic Impedance Cytometer on Printed Circuit Board for Low Cost Diagnosis[J]. IEEE Sensors Journal, 2014, 14(7):2112-2117.

[20] Guo J. Pui T S, Ban Y L, et al. Electrokinetic Analysis of Cell Translocation in Low-Cost Microfluidic Cytometry for Tumor Cell Detection and Enumeration.[J]. IEEE transactions on bio-medical engineering, 2013, 60(12):3269-75.

[21] Chen Y, Guo J. Muhammad H, et al. CMOS-Compatible Silicon-Nanowire-Based Coulter Counter for Cell Enumeration[J]. IEEE Transactions on Biomedical Engineering, 2016, 63(2):311-315.

[22] Zou L, Qiao Y, Wu Z, et al. Tailoring Unique Mesopores of Hierarchically Porous Structures for Fast Direct Electrochemistry in Microbial Fuel Cells[J]. Advanced Energy Materials, 2016, 6(4):n/a-n/a.

[23] Chen L, Guo J.* Printed interdigital electrodes on plastic film for tumor cells density monitoring[J]. Electrophoresis, 2015, 36(16):1859-1861.

[24] Guo J. , Ma X. Simultaneous monitoring of glucose and uric acid on a single test strip with dual channels.[J]. Biosensors & Bioelectronics, 2017, 94:415.

[25] Guo J. , Li C M, Kang Y. PDMS-film coated on PCB for AC impedance sensing of biological cells.[J]. Biomedical Microdevices, 2014, 16(5):681-686.

[26] Guo J. , Huang X, Ai Y. On-Demand Lensless Single Cell Imaging Activated by Differential Resistive Pulse Sensing[J]. Analytical Chemistry, 2015, 87(13):6516.

[27] Wang J, Lu Z, Li Y, Guo J. et al. A High-Level Thermal Model-Based Task Mapping for CMPs in Dark-Silicon Era[J]. IEEE Transactions on Electron Devices, 2016, 63(9):3406-3412.

[28] Ma Z, Guo J. Liu Y J, et al. The patterning mechanism of carbon nanotubes using surface acoustic waves: the acoustic radiation effect or the dielectrophoretic effect.[J]. Nanoscale, 2015, 7(33):14047-14054.

[29] Xue P, Wu Y, Guo J. , et al. Highly efficient capture and harvest of circulating tumor cells on a microfluidic chip integrated with herringbone and micropost arrays[J]. Biomedical Microdevices, 2015, 17(2):1-8.

[30] Wang J, Chen Z, Guo J.* et al. ACO-Based Thermal-Aware Thread-to-Core Mapping for Dark-Silicon-Constrained CMPs[J]. IEEE Transactions on Electron Devices, 2017, PP(99):1-8.

[31] Zhu Y, Kang K, Wu Y, Guo J. et al. An Equivalent Circuit Model With Current Return Path Effects for ON-Chip Interconnect up to 80 GHz[J]. IEEE Transactions on Components Packaging & Manufacturing Technology, 2015, 5(9):1320-1330.

[32] Guo J. Huang X, Shi D, et al. Portable resistive pulse-activated lens-free cell imaging system[J]. Rsc Advances, 2014, 4(99):56342-56345.

[33] Guo J.* Smartphone-Powered Electrochemical Biosensing Dongle for Emerging Medical IoTs Application[J]. IEEE Transactions on Industrial Informatics, 2017, PP(99):1-1.

[34] Fu Y, Yuan Q, Guo J.* . Lab-on-PCB-based micro-cytometer for circulating tumor cells detection and enumeration[J]. Microfluidics & Nanofluidics, 2017, 21(2):20.

[35] Chen Y, Kim S J, Guo J.* et al. Portable Coulter counter with vertical through-holes for high-throughput applications[J]. Sensors & Actuators B Chemical, 2015, 213:375-381.

[36] Tan C, Xie D, Liu Y, Guo J.* Identification of Different Bile Species and Fermentation Time of Bile Arisaema Based on An Intelligent Electronic Nose and Least Squares Support Vector Machine[J]. Analytical Chemistry, 2018.

[37] Huang Y, Guo J. Kang Y, et al. Two dimensional atomically thin MoS2 nanosheets and their sensing applications.[J]. Nanoscale, 2015, 7(46):19358-19376.

[38] Ban Y L, Chen J H, Sun S C, Guo J. et al. Printed Monopole Antenna With a Long Parasitic Strip for Wireless USB Dongle LTE/GSM/UMTS Operation[J]. IEEE Antennas & Wireless Propagation Letters, 2012, 11(1):767-770.

[39] Zhu J Q, Ban Y L, Xu R M, Guo J. et al. Miniaturized Dual-Loop NFC Antenna with a Very Small Slot Clearance for Metal Cover Smartphone Applications[J]. IEEE Transactions on Antennas & Propagation, 2018, PP(99):1-1.

[40] Ban Y L, Chen J H, Sun S C, Guo J. et al. Printed Wideband Antenna with Chip-Capacitor-Loaded Inductive Strip for Lte/GSM/UMTS Wwan Wireless Usb Dongle Applications[J]. 128,(2012), 2012, 128(14):313-329.

[41] Zhong L H, Ban Y L, Lian J W,Guo J. et al. Miniaturized SIW Multibeam Antenna Array Fed by Dual-Layer 8 ?8 Butler Matrix[J]. IEEE Antennas & Wireless Propagation Letters, 2017:1-1.

[42] Li M Y, Ban Y L, Xu Z Q, Guo J. et al. Tri-Polarized 12-Antenna MIMO Array for Future 5G Smartphone Applications[J]. IEEE Access, 2017, PP(99):1-1.

[43] Ban Y L, Qiang Y F, Chen Z, Guo J. et al. A Dual-Loop Antenna Design for Hepta-Band WWAN/LTE Metal-Rimmed Smartphone Applications[J]. IEEE Transactions on Antennas & Propagation, 2014, 63(1):48-58.

[44] Guo J. Lei W, Ma X, et al. Design of a Fluidic Circuit-Based Microcytometer for Circulating Tumor Cell Detection and Enumeration[J]. IEEE Trans Biomed Circuits Syst, 2014, 8(1):35-41.

[45] Ban Y L, Liu C L, Li L W, Guo J. et al. Small-Size Coupled-Fed Antenna With Two Printed Distributed Inductors for Seven-Band WWAN/LTE Mobile Handset[J]. IEEE Transactions on Antennas & Propagation, 2013, 61(11):5780-5784.

[46] Ban Y L, Qiang Y F, Chen Z, Guo J. et al. A Dual-Loop Antenna Design for Hepta-Band WWAN/LTE Metal-Rimmed Smartphone Applications[J]. IEEE Transactions on Antennas & Propagation, 2014, 63(1):48-58.

[47] Zhang H B, Ban Y L, Qiang Y F, Guo J. et al. Reconfigurable Loop Antenna with Two Parasitic Grounded Strips for WWAN/LTE Unbroken-Metal-Rimmed Smartphones[J]. IEEE Access, 2017, PP(99):1-1.

[48] Yuan D, Tan S H, Sluyter R, Guo J. et al. On-chip microparticle and cell washing using co-flow of viscoelastic fluid and Newtonian fluid.[J]. Analytical Chemistry, 2017, 89(17):9574-9582.

[49] Xue P, Sun L, Li Q, Guo J. et al. PEGylated polydopamine-coated magnetic nanoparticles for combined targeted chemotherapy and photothermal ablation of tumour cells.[J]. Colloids & Surfaces B Biointerfaces, 2017, 160:11.

[50] Ma Z, Collins D J, Guo J, et al. Mechanical Properties Based Particle Separation via Traveling Surface Acoustic Wave[J]. Analytical Chemistry, 2016, 88(23):11844.

[51] Xue P, Zhang L, Guo J, et al. Isolation and retrieval of circulating tumor cells on a microchip with double parallel layers of herringbone structure[J]. Microfluidics & Nanofluidics, 2016, 20(12):169.

[52] Guo J. et al. Lab on dielectric film deposited PCB device for characterization of electrical property of biological cells[J]. IEEE Transactions on Dielectrics & Electrical Insulation, 2016, 23(4):1895-1897.

[53] Guo J., Kang Y, Ye A. Radiation dominated acoustophoresis driven by surface acoustic waves[J]. J Colloid Interface Sci, 2015, 455:203-211.

[54] Guo J.* et al., "High-sensitive Smartphone based Raman System based on Cloud Network Architecture," DOI (identifier) 10.1109/JSTQE.2018.2832661,

for publication in IEEE Journal of Selected Topics in Quantum Electronics



研究成果转化情况介绍

1.参与中国工信部通信标准研究院和国家卫计委联合发起的,国家智能医疗通讯接口的国家标准制定。

2. 所领导的信息医学团队开发的“贵健康”致力于利用移动互联网的科技手段帮助人们掌握健康、治疗病痛,并且努力给医疗体制建立一个更自由的信息医疗生态。贵健康”于2016年6月上线,目前日视频问诊量超过6000人次,累积完成80余万次视频问诊,处于国内信息医疗领域领先水平。未来“贵健康”将逐步建立健康档案、电子病历、人口信息共享数据库、共享平台和共享机制,以此推动惠及全民的健康信息服务和智慧医疗服务。