章春笋

个人简介

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姓名:章春笋
学历:博士
职称:研究员(博士生导师)
职务:副院长
研究方向:微流控光学传感器及其生物医学应用
联系电话:020-85211421-8501
电子邮箱:zhangcs@scnu.edu.cn; zhangcs_scnu@126.com
通讯地址:广州市中山大道西55号华南师范大学生物光子学研究院(510631)


1974年生,华南师范大学研究员,博士生导师;1998年获江苏石油化工学院热能工程专业学士学位、2003获中国科学院广州能源研究所热能工程专业硕士学位、2006获中国科学技术大学工程热物理专业博士学位;2006-至今华南师范大学任职,主要从事微流控光学传感器及其生物医学应用的研究;主持国家/省市项目6项;在国际权威期刊如Chemical Reviews (IF 52.613)、Biosensors and Bioelectronics (IF 8.173)、Lab on a Chip (IF 5.995)等发表SCI收录论文40多篇;获省部奖项3项;获授权发明专利9项;十余种知名SCI期刊(如Lab on a Chip、Biosensors and Bioelectronics、Analytical Chemistry、ACS Applied Materials & Interfaces 等)审稿人;国家自然科学基金(NSFC)、广东省自然科学基金以及广东省省级科技计划项目的通讯评审人。


学习经历

2003.9-2006.6    中国科学技术大学 工程热物理专业 博士

2000.9-2003.6    中国科学院广州能源研究所 热能工程专业 硕士

1994.9-1998.6    江苏石油化工学院 能源工程专业 学士

工作经历

2012.1-至今      华南师范大学激光生命科学教育部重点实验室研究员

2007.12-2011.12  华南师范大学激光生命科学教育部重点实验室 副研究员

2006.7-2007.11   华南师范大学激光生命科学教育部重点实验室 讲师

1998.7-2000.8    江苏省涟水县高级职业中学 物理教师


发表论文:

[1] Cuiling Liu, Dan Wang, Chunsun Zhang*. A novel paperfluidic closed bipolarelectrode-electrochemiluminescence sensing platform: Potential formultiplex detection at crossing-channel closed bipolar electrodes. Sensors and Actuators B, 2018, 270, 341-352. (IF 5.667; 工程技术一区)

[2] Dan Wang, Cuiling Liu, Yi Liang, Yan Su, Qiuping Shang, Chunsun Zhang*. A simple and sensitive paper-based bipolar electrochemiluminescence biosensor for detection of oxidase-substrate biomarkers in serum. Journal of The Electrochemical Society, 2018, 165, B361-B369. (IF 3.662; 材料科学:膜一区)

[3] Huijie Li, Cuiling Liu, Dan Wang, Chunsun Zhang*. Programmable fluid transport on photolithographicallymicropatterned cloth devices: Towards the development of facile, multifunctional colorimetric diagnostic platforms. Sensors and Actuators B, 2018, 255: 2416-2430.  (IF 5.667; 工程技术一区)

[4] Bowen Shu, Chunsun Zhang*, Da Xing*. A sample-to-answer, real-time convective polymerase chain reaction system for point-of-care diagnostics. Biosensors and Bioelectronics, 2017, 97: 360-368. (IF 8.173; 工程技术一区)

[5] Huijie Li, Cuiling Liu, Dan Wang, Chunsun Zhang*. Chemiluminescence cloth-based glucose test sensors (CCGTSs): a new class of chemiluminescence glucose sensors. Biosensors and Bioelectronics, 2017, 91: 268-275. (IF 8.173; 工程技术一区)

[6] Rui Liu, Cuiling Liu, Huijie, Min Liu, Dan Wang, Chunsun Zhang*. Bipolar electrochemiluminescence on thread: A new class of electroanalytical sensors. Biosensors and Bioelectronics, 2017, 94: 335-343. (IF 8.173; 工程技术一区)

[7] Min Liu, Dan Wang, Cuiling Liu, Rui Liu, Huijie Li, Chunsun Zhang*. Battery-triggered open wireless electrochemiluminescence in amicrofluidic cloth-based bipolar device. Sensors and Actuators B, 2017, 246: 327-335.(IF 5.667; 工程技术一区)

[8]Yong Yao, Huijie Li, Dan Wang, Cuiling Liu, Chunsun Zhang*.An electrochemiluminescence cloth-based biosensor with smartphone-based imaging for detection of lactate in saliva. Analyst, 2017, 142: 3715-3724.(IF 3.864; 化学二区)

[9] Huijie Li, Dan Wang, Cuiling Liu, Rui Liu, Chunsun Zhang*. Facile and sensitive chemiluminescence detection of H2O2 and glucose by a gravity/capillary flow and cloth-based low-cost platform. RSC Advances, 2017, 7: 43245-43254.(IF 2.936; 化学二区)

[10] Wenrong Guan, Min Liu, Chunsun Zhang*. Electrochemiluminescence detection in microfluidic cloth-based analytical devices. Biosensors and Bioelectronics, 2016, 75: 247-253 (IF 8.173; 工程技术一区)

[11]  Min Liu, Rui Liu, Dan Wang, Cuiling Liu, Chunsun Zhang*. A low-cost, ultraflexible cloth-based microfluidic device for wireless electrochemiluminescence application. Lab on a Chip, 2016, 16(15): 2860-2870.(IF 5.995; 工程技术一区)

[12]  Rui Liu, Peng Zhang, Huijie Li, Chunsun Zhang*. Lab-on-cloth integrated  with gravity/capillary flow chemiluminescence (GCF-CL): towards simple,  inexpensive, portable, flow system for measuring trivalent chromium in water. Sensors and Actuators B, 2016, 236: 35-43.(IF 5.667; 工程技术一区)

[13]  Peng Zhang, Chunsun Zhang*, Bowen Shu. Micropatterned paper devices  using amine-terminated polydiacetylene vesicles as colorimetric probes for  enhanced detection of double-stranded DNA. Sensors and Actuators B, 2016, 236: 27-34.                    (IF 5.667; 工程技术一区)

[14]  Lu Chen, Chunsun Zhang*, Da Xing*. Paper-based bipolar  electrode-electrochemiluminescence (BPE-ECL) device with battery energy supply and smartphone read-out: A handheld ECL system for biochemical  analysis at the point-of-care level. Sensors and Actuators B, 2016, 237: 308-317.(IF 5.667; 工程技术一区)

[15]  Yong Yao, Chunsun Zhang*. A novel screen-printed microfluidic paper-based electrochemical device for detection of glucose and uric acid in urine. Biomedical Microdevices, 2016, 18(5): 92.(IF 2.077; 工程技术二区)

[16]  Yong Yao, Chunsun Zhang*. A novel one-step fabricated, droplet-based electrochemical sensor for facile biochemical assays. Sensors, 2016, 16(8): 1231. (IF 2.475; 工程技术三区)

[17]  Wenrong Guan, Chunsun Zhang*, Feifei Liu, Min Liu. Chemiluminescence detection for microfluidic cloth-based analytical devices (μCADs). Biosensors and Bioelectronics, 2015, 72: 114-120.(IF 8.173; 工程技术一区)

[18]  Peijing Wu, Chunsun Zhang*. Low-cost, high-throughput fabrication of cloth-based microfluidic devices using a photolithographical patterning technique. Lab on a Chip, 2015,15: 1598-1608.(IF 5.995; 工程技术一区)

[19]  Rui Liu, Chunsun Zhang*, Min Liu. Open bipolar  electrode-electrochemiluminescence imaging sensing using paper-based  microfluidics. Sensors and Actuators B, 2015, 216: 255-262.(IF 5.667; 工程技术一区)

[20]  Feifei Liu, Chunsun Zhang*. A novel paper-based microfluidic enhanced chemiluminescence biosensor for facile, reliable and highly-sensitive gene detection of Listeria monocytogenes. Sensors and Actuators B, 2015, 209: 399-406.(IF 5.667; 工程技术一区)

[21]  Min Liu, Chunsun Zhang*, Feifei Liu. Understanding wax screen-printing: A novel patterning process for microfluidic cloth-based analytical devices. Analytica Chimica Acta, 2015, 891: 234-246.(IF 5.123; 分析化学一区)

[22]  Bowen Shu, Chunsun Zhang*, Da Xing*. A handheld flow genetic analysis system (FGAS): towards rapid, sensitive, quantitative and multiplex molecular diagnosis at the point-of-care level. Lab on a Chip, 2015,15: 2597-2605.(IF 5.995; 工程技术一区)

[29]  Chunsun Zhang*, Yuyuan Li, Haiying Wang, Rapid amplification and detection of foodborne pathogenic rotavirus by continuous-flow reverse transcription-polymerase chain reaction integrated with online fluorescence analysis. Chinese Journal of Analytical Chemistry, 2011, 39(5): 645-651. (IF 0.824; 化学4区)

[30]  Chunsun Zhang, Da Xing*. Single-molecule DNA amplification and analysis using microfluidics. Chemical Reviews, 2010, 110: 4910-4947.(IF 52.613; 化学一区)

[31]  Chunsun Zhang, Da Xing*. Decreasing microfluidic evaporation loss using the HMDL method: open systems for nucleic acid amplification and analysis. Microfluidics and Nanofluidics, 2010, 9: 17-30.(IF 2.384; 工程技术二区)

[32]  Chunsun Zhang, Da Xing*. Microfluidic gradient PCR (MG-PCR): a new method for microfluidic DNA amplification. Biomedical Microdevices, 2010, 12:1-12.(IF 2.077; 工程技术二区)

[33]  Chunsun Zhang, Da Xing*. Parallel DNA amplification by convective polymerase chain reaction with various annealing temperatures on a thermal gradient device. Analytical Biochemistry, 2009, 387:102-112. (IF 2.275; 生物三区)

[34]  Haiying Wang, Chunsun Zhang*, Yuyuan Li, Rapid detection of tobacco mosaic virus from crude samples on oscillatory-flow reverse transcription polymerase chain reaction microfluidics. Chinese Journal of Analytical Chemistry, 2009, 37 (9) : 1286-1290.  (IF 0.824; 化学4区)

[35]  Yuyuan Li, Da Xing*, Chunsun Zhang, Rapid detection of genetically modified organisms on a continuous-flow polymerase chain reaction microfluidics, Analytical Biochemistry, 2009, 385 (1): 42-49.(IF 2.275; 生物三区)

[36]  Chunsun Zhang, Da Xing*, Yuyuan Li, Applications of laser technique for polymeras chain reaction microfluidic chips. Chinese Journal of Analytical Chemistry, 2008, 36(2): 259-265.(IF 0.824; 化学区)                                                         

[37]  Chunsun Zhang, Da Xing*. Miniaturized PCR chips for nucleic acid amplification and analysis: latest advances and future trends. Nucleic Acids Research, 2007, 35: 4223-4237.            (IF 11.561; 生物一区)

[38]  Chunsun Zhang, Da Xing*, Yuyuan Li. Micropumps, microvalves, and micromixers within PCR microfluidic chips: Advances and trends. Biotechnology Advances, 2007, 25: 483–514. (IF 11.452; 工程技术1区)

[39]  C. Zhang*, D. Xing, J. Xu, Continuous-flow PCR microfluidics for rapid DNA amplification using thin film heater with low thermal mass. Analytical Letters, 2007, 40(9): 1672-1685.(IF 1.206; 化学4区)

[40]  Chunsun Zhang, Jinliang Xu*, Jianqin Wang, Hanping Wang, Continuous-flow polymerase chain reaction microfluidics by using spiral capillary channel embedded on copper. Analytical Letters, 2007, 40(3): 497-511.  (IF 1.206; 化学4区)

[41]  Chunsun Zhang, Jinliang Xu*, Wenli Ma, Wenling Zheng. PCR microfluidic devices for DNA amplification. Biotechnology Advances, 2006, 24: 243-284.(IF 11.452; 工程技术1区)

[42]  Chunsun Zhang, Jinliang Xu*, Jianqin Wang, Hanping Wang, Experimental study of continuous-flow polymerase chain reaction microfluidics based on polytetrafluoroethylene capillary. Chinese Journal of Analytical Chemistry, 2006, 34(8): 1197-1202. (IF 0.824; 化学4区)

[43]  C.S. Zhang, J.L. Xu*, The design development of continuous-flow polymerase chain reaction chip. Chinese Journal of Analytical Chemistry, 2005, 33(5): 729-734. (IF 0.824; 化学4区)

[44]  C.S. Zhang, S.S. Fan*, D.Q. Liang, K.H. Guo. Effect of additives on formation of natural gas hydrate. Fuel, 2004, 83, 2115-2121.(IF 4.908; 工程技术2区)

 

专利情况

[1]     章春笋,  吴培京. 一种基于紫外光刻技术的布基微流控芯片制备方法. 发明专利号: ZL 2014 1 0339906.6(授权公告日2015年08月19日).

[2]     章春笋, 刘敏. 一种布基微流控分析芯片的蜡网印加工方法. 发明专利号: ZL 2014 1 0487022.5(授权公告日2015年12月30日).

[3]     章春笋, 刘菲菲. 一种纸基微流控芯片增强型化学发光基因传感方法. 发明专利号: ZL 2014 1 0259179.2(授权公告日2016年03月30日).

[4]     章春笋, 张鹏. PDA 修饰的纸基微流控芯片及其在 DNA 比色检测中的应用.发明专利号: ZL 2015 1 0047078.3(授权公告日2016年04月27日).

[5]     章春笋, 邢达, 舒博文. 手持式 POCT 流式基因分析系统. 发明专利号: ZL 2015 1 0140830.9(授权公告日2016年05月11日).

[6]     章春笋, 刘瑞. 双性电极电致化学发光纸基微流控芯片及其成像传感应用. 发明专利号: ZL 2014 1 0494915.2(授权公告日2016年07月06日).

[7]     章春笋, 管文荣, 刘敏. 三碳电极电致化学发光布基微流控芯片及其制法和用途. 发明专利号: ZL 2015 1 0387790.8(授权公告日2016年08月24日).

[8]     章春笋, 刘瑞. 一种布芯片重力/毛细流动化学发光方法. 发明专利号: ZL 201510868060.X(授权公告日2017年11月24日).

[9]     章春笋, 邢达, 舒博文. 智能手机宽场荧光成像器. 实用新型专利号: ZL 2015 2 0180632.0(授权公告日2015年07月01日).

[10] 章春笋, 邢达, 舒博文. 热梯度微反应器. 实用新型专利号: ZL 20152 0179811.2(授权公告日2015年07月22日).

[11] 章春笋, 张鹏. 一种纸芯片重力/毛细流动化学发光方法. 发明专利申请号: 201510861233.5(申请日期2015年11月30日).

[12] 章春笋, 陈路. 手持式 POCT双性电极-电化学发光装置及其应用. 发明专利申请号: 201610344999.0(申请日期2016年5月20日).

[13] 章春笋, 刘敏. 一种闭合式双性电极电致化学发光布芯片及其制法和用途. 发明专利申请号: 201610390590.2(申请日期2016年6月1日).

[14] 章春笋, 刘瑞. 毛细微通道辅助线基微流控双性电极电化学发光装置及应用. 发明专利申请号: 201610703422.4(申请日期2016年8月22日).

[15] 章春笋, 刘敏.开放式U形双性电极电致化学发光布芯片及其制法和用途. 发明专利申请号: 201610753106.8(申请日期2016年8月29日).

[16] 章春笋, 李慧杰. 含蜡坝的重力/毛细流布芯片及其在葡萄糖传感中的应用. 发明专利申请号: 201610960195.3(申请日期2016年10月28日).

[17] 章春笋,刘翠玲, 一种闭合式多元双性电极电化学发光芯片及其应用.发明专利申请号: 201810127422.3(申请日期2018年2月8日). 


科研项目:

[1]    国家自然科学基金面上项目:布基微流控化学发光基因传感器的一些基础问题研究,2016.01-2019.12 (81571765) (66万)【主持

[2]    国家自然科学基金面上项目:集空间融解曲线分析的芯片基微流控梯度PCR 新方法与技术研究,2011.01-2013.12(61072030) (35万)【主持

[3]    国家自然科学基金青年科学基金项目:生物磁分离与荧光定量连续流动式PCR 集成的微流控技术在核酸分析中的应用研究,2008.1-2010.12 (30700155) (22万【主持

[4]    广东省省级科技计划项目:聚合酶链式反应-纸基微流控化学发光生物传感器检测南方常见食源性细菌疾病的新方法与技术研究,2015.1-2016.12 (2014A020212503) (5万)【主持

[5]    广东省省级科技计划项目:布基芯片电化学免疫传感器检测南方常见食品致病菌的新方法与技术研究,2016.1- 2018.12 (2016A020215143)(10万)主持

    [7] 广州市科技计划项目:连续流动聚合酶链式反应-电化学发光微流控生物传感器多元高灵敏度检测南方常见食品致病菌方法研究,2014.4-2016.3 (2014J4100030) 

(8万) 【主持


获奖情况:

[1] 2013年,“新型生物传感技术在功能分子检测和成像中的应用基础研究”获教育部高等学校科学研究优秀成果奖( 科学技术)二等奖  【第二完成人


[2] 2010年,“光学与生命科学交叉科学中的前沿问题与关键技术研究”获广东省自然科学二等奖  【第四完成人


[3] 2005年,“微尺度能量传递原理的基础研究”获广东省自然科学三等奖第四完成人