陈鹏

个人信息Personal Information

副教授   博士生导师   硕士生导师  

性别:男

在职信息:在职

所在单位:生命科学与技术学院

学历:研究生(博士)毕业

学位:工学博士学位

毕业院校:华中科技大学

学科:生物医学工程

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  • 研究方向

    致力于微流控生物芯片与纳微尺度生物医学技术相关研究,针对“生物”国家战略性新兴产业与世界科技前沿,探索生物医学工程和分析化学领域的前沿科学问题,研发面向单细胞分析、液体活检以及体外快速诊断的创新技术、方法和仪器。

    一作及通讯作者论文


    [32] Li, P. J.,Chen, P.,Qi, F. K., et al. High-throughput and proteome-wide discovery of endogenous biomolecular condensates. Nat Chem, Mar 18, 2024.

    [31] Li, S.,Wan, C.,Xiao, Y., et al. Multiple on-line active valves based centrifugal microfluidics for dynamic solid-phase enrichment and purification of viral nucleic acid. Lab Chip, May 24, 2024.

    [30] Qian, C.,Li, P.,Wang, J., et al. Centrifugo-Pneumatic Reciprocating Flowing Coupled with a Spatial Confinement Strategy for an Ultrafast Multiplexed Immunoassay. Anal Chem, May 7, 2024, 96 (18): 7145-7154.

    [29] Wan, C.,Yi, L.,Yuan, H., et al. Atmospheric Pressure Enhanced Self-Sealing Rotation-SlipChip with Programmable Concentration Gradient Generation for Microbiological Applications. Small Methods, May 31, 2024,  e2400454.

    [28] Xiao, Y.,Zhou, M.,Liu, C., et al. Fully integrated and automated centrifugal microfluidic chip for point-of-care multiplexed molecular diagnostics. Biosens Bioelectron, Jul 1, 2024, 255 (255): 116240.

    [27] Guo, S.,Xie, H.,Zhao, X. D., et al. All-in-one detection of breast cancer-derived exosomal miRNA on a pen-based paper chip. Analyst, Feb 12, 2024, 149 (4): 1250-1261.

    [26] Pang, Z.,Li, S.,Wang, S., et al. Controlled-diffusion centrifugal microfluidic for rapid antibiotic susceptibility testing. Anal Chim Acta, Jan 25, 2024, 1287 342033.

    [25]  Yuan, H.,Wan, C.,Wang, X., et al. Programmable Gravity Self-Driven Microfluidic Chip for Point-of-Care Multiplied Immunoassays. Small, Dec 12, 2023,  e2310206.

    [24]   Qian, C.,Wan, C.,Li, S., et al. On-Line Dual-Active Valves Based Centrifugal Microfluidic Chip for Fully Automated Point-of-Care Immunoassay. Anal Chem, Aug 9, 2023.

    [23]   Qian, C.,Li, J.,Pang, Z., et al. Hand-powered centrifugal micropipette-tip with distance-based quantification for on-site testing of SARS-CoV-2 virus. Talanta, Jun 1, 2023, 258 124466.

    [22]   Li, S.,Wan, C.,Wang, B., et al. Handyfuge Microfluidic for On-Site Antibiotic Susceptibility Testing. Anal Chem, Apr 11, 2023, 95 (14): 6145-6155.

    [21]   Huang, Q.,Xiao, W.,Chen, P., et al. Nanopore membrane chip-based isolation method for metabolomic analysis of plasma small extracellular vesicles from COVID-19 survivors. Biosens Bioelectron, May 1, 2023, 227 115152.

    [20]   Zhou, M.,Su, H.,Wang, B., et al. A magnet-actuated microfluidic array chip for high-throughput pretreatment and amplification and detection of multiple pathogens. Analyst, May 30, 2022, 147 (11): 2433-2441.

    [19]   Zeng, W.,Chen, P.,Li, S., et al. Hand-powered vacuum-driven microfluidic gradient generator for high-throughput antimicrobial susceptibility testing. Biosens Bioelectron, Jun 1, 2022, 205 114100.

    [18]   Yuan, H. J.,Chen, P.,Wan, C., et al. Merging microfluidics with luminescence immunoassays for urgent point-of-care diagnostics of COVID-19. Trac-Trend Anal Chem, Dec, 2022, 157.

    [17]   Yiran Guo, P. C., Zhaolong Gao, Yiwei Li, Shunji Li, Xiaojun Feng,Bi-Feng Liu. A time-coded multi-concentration microfluidic chemical waveform generator for high-throughput probing suspension single-cell signaling. Chinese Chemical Letters, 2022.

    [16]   Xiao, Y.,Li, S.,Pang, Z., et al. Multi-reagents dispensing centrifugal microfluidics for point-of-care testing. Biosens Bioelectron, Feb 26, 2022, 206 114130.

    [15] Wang, X.,Hong, X. Z.,Li, Y. W., et al. Microfluidics-based strategies for molecular diagnostics of infectious diseases. Mil Med Res, Mar 18, 2022, 9 (1): 11.

    [14] Wang, J.,Chen, P.,Dong, Y., et al. Designer exosomes enabling tumor targeted efficient chemo/gene/photothermal therapy. Biomaterials, Sep, 2021, 276 121056.

    [13] Qian, C. G.,Xiao, Y. J.,Wang, J., et al. Rapid exosomes concentration and in situ detection of exosomal microRNA on agarose-based microfluidic chip. Sensor Actuat B-Chem, Apr 15, 2021, 333.

    [12] Chen, P.,Chen, C.,Su, H., et al. Integrated and finger-actuated microfluidic chip for point-of-care testing of multiple pathogens. Talanta, Mar 1, 2021, 224 121844.

    [11] Guo, Y.,Gao, Z.,Liu, Y., et al. Multichannel Synchronous Hydrodynamic Gating Coupling with Concentration Gradient Generator for High-Throughput Probing Dynamic Signaling of Single Cells. Anal Chem, Sep 1, 2020, 92 (17): 12062-12070.

    [10] Chen, P.,Li, S.,Guo, Y., et al. A review on microfluidics manipulation of the extracellular chemical microenvironment and its emerging application to cell analysis. Anal Chim Acta, Aug 15, 2020, 1125 94-113.

    [9] Chen, P.,Yan, S.,Wang, J., et al. Dynamic Microfluidic Cytometry for Single-Cell Cellomics: High-Throughput Probing Single-Cell-Resolution Signaling. Anal Chem, Jan 15, 2019, 91 (2): 1619-1626.

    [8] Chen, P.,Chen, D. J.,Li, S. J., et al. Microfluidics towards single cell resolution protein analysis. Trac-Trend Anal Chem, Aug, 2019, 117 2-12.

    [7 Chen, P.,Chen, C.,Liu, Y. H., et al. Fully integrated nucleic acid pretreatment, amplification, and detection on a paper chip for identifying EGFR mutations in lung cancer cells. Sensor Actuat B-Chem, Mar 15, 2019, 283 472-477.

    [6] Chen, P.,Feng, X. J.,Yan, S. Q., et al. Precision guided microfluidic chemical perfusion strategy for cell dynamic imaging. Sensor Actuat B-Chem, Jun 15, 2018, 263 281-288.

    [5] Yan, S. Q.,Chen, P.,Zeng, X. M., et al. Integrated Multifunctional Electrochemistry Microchip for Highly Efficient Capture, Release, Lysis, and Analysis of Circulating Tumor Cells. Anal Chem, Nov 21, 2017, 89 (22): 12039-12044.

    [4] Chen, P.,Guo, Y. R.,Wang, J., et al. A localized chemical pulse generator for the development of a microfluidic cell-based biosensor. Sensor Actuat B-Chem, Nov, 2017, 251 112-119.

    [3] Chen, P.,Guo, Y. R.,Feng, X. J., et al. Microfluidic Chemical Function Generator for Probing Dynamic Cell Signaling. Anal Chem, Sep 5, 2017, 89 (17): 9209-9217.

    [2] Chen, P.,Feng, X. J.,Chen, D. J., et al. Investigating intercellular calcium waves by microfluidic gated pinched-flow. Sensor Actuat B-Chem, Oct 29, 2016, 234 583-592.

    [1] Chen, P.,Chen, P.,Feng, X. J., et al. Analysis of intercellular communication by flexible hydrodynamic gating on a microfluidic chip. Anal Bioanal Chem, Jan, 2013, 405 (1): 307-314.


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