汤娟,女,1987年06月生,博士,校聘教授。2014年毕业于福州大学食品安全分析与检测技术教育部重点实验室,获理学博士学位。2014年06月至今于威廉希尔中国官网从事分析化学教学与科研工作。先后主持国家自然科学基金、江西省自然科学基金、江西省高等学校教学改革研究课题等省部级以上教学与科研项目12项;公开发表SCI收录研究论文40余篇;获发明专利1项。2017年入选威廉希尔娱乐“青年英才”;2021年入选江西省学术学科带头人培养计划;2022年入选威廉希尔娱乐“1125”人才培养支持工程;多次荣获“三育人” “巾帼建功”先进个人荣誉称号。
联系方式:
办公室:威廉希尔娱乐瑶湖校区方荫楼3-4344
E-mail: tjhere@126.com; juan_tang@hotmail.com
联系电话:13617090621
研究方向:
(1)光电化员工物传感器的构建及检测分析应用
(2)功能材料合成与性能分析及应用
(3)食品及环境检测
教研与获奖:
1、 金课视域下基于微课的任务驱动式翻转课堂在《仪器分析》中的应用研究,JXJG-20-2-21, 江西省高等学校教学改革研究课题,主持,在研。
2、 基于“挑战杯”竞赛的化学类专业创新创业型人才培养模式研究,威廉希尔娱乐教学改革研究课题,主持,在研。
3、 “双一流”背景下进阶式任务引领OMO教学模式在《分析测试技术与方法》课程中的探索与实践, JXYJG-2021-061,江西省学位与研究生教学改革研究课题,主持,在研。
4、主讲的《仪器分析》课程获江西省防疫期间线上优质课三等奖。
5、指导本科生参加全国第十五届“挑战杯”老员工课外学术科技作品竞赛获江西省特等奖、国家三等奖。
科研项目:
1、国家自然科学基金,21864013,高性能分体式光电化员工物传感模式的构建及其对食品中有机磷农药残留的检测研究,2019.01-2022.12,41万,主持,在研。
2、国家自然科学基金,21505060,多功能纳米二硫化钼光电化学传感探针对食品中赭曲霉毒素检测新方法研究,2016.01-2018.12,21万,主持,已结题。
3、国家自然科学基金优青培育项目,20202ZDB01003,高性能便携式光热生物传感器的研究,2020.01-2020.12,25万,主持,在研。
4、江西省主要学科学术和技术带头人培养计划,20212BCJL23057,基于智能手机的高性能便携式生物传感器的研究,2022.01-2025.12,30万,主持,在研。
5. 江西省自然科学基金,20202BAB203008,酶促分体式光电化学传感新模式的设计及应用研究,2020.01-2021.12,6万,主持,在研。
6、江西省自然科学基金,20161BAB213073,面向食源性真菌毒素检测的类石墨烯光电化学传感探针的研究,2017.01-2019.12,6万,主持,已结题。
7、江西省教育厅科技项目,GJJ150327,2016.01-2018.12,2万,主持,已结题。
8、功能有机小分子教育部重点实验室开放基金,KLFS-KF-201710, 2017.09-2019.08,1.5万,主持,已结题。
9、功能有机小分子教育部重点实验室开放基金,KLFS-KF-201710, 2019.11-2021.11,1.0万,主持,在研。
发表论文:
[1] Juan Tang*, Jiao Qin, Jinjin Li, Liping Liu, Haisen Zeng, Cu2+@NMOFs-to-bimetallic CuFe PBA transformation: An instant catalyst with oxidase-mimicking activity for highly sensitive impedimetric biosensor, Biosensors and Bioelectronics, 2023, 222, 114961.
[2] Juan Tang*, Liping Liu, Jiao Qin, Xiaoting Lv, Jinjin Li, Dianping Tang, Junyang Zhuang, Biocatalysis-mediated MOF-to-prussian blue transformation enabling sensitive detection of NSCLC-associated miRNAs with dual-readout signals, Biosensors and Bioelectronics, 2022, 206, 114139.
[3] Juan Tang*, Liping Liu, Shan Shao, Jiao Qin, Xiaoxuan Liu, Dianping Tang, A portable thermal detection method based on the target responsive hydrogel mediated self-heating of a warming pad, Chemical Communications, 2021, 57: 9862-9865.
[4] Jingjing Li, Pengyuan Xiong, Juan Tang*, Liping Liu, Shan Gao, Zhiyao Zeng, Haimei Xie, Diangping Tang, Junyang Zhuang*, Biocatalysis-induced formation of BiOBr/Bi2S3 semiconductor heterostructures: a highly efficient strategy for establishing sensitive photoelectrochemical sensing system for organophosphorus pesticide detection, Sensors and Actuators B: Chemical, 2021, 331: 129451.
[5] Juan Tang*, Jingjing Li, Pengyuan Xiong, Yuanfang Sun, Zhiyao Zeng, Xiaochun Tian, Dianping Tang, Rolling circle amplification promoted magneto-controlled photoelectrochemical biosensor for organophosphorus pesticides based on dissolution of core-shell MnO2 nanoflower@CdS mediated by butyrylcholinesterase, Microchimica Acta, 2020, 187: 450.
[6] Juan Tang*, Pengyuan Xiong, Yu Cheng, Ya Chen, Siwen Peng, Zhi-qiang Zhu, Enzymatic oxydate-triggered AgNPs etching: a novel signal-on photoelectrochemical immunosensing platform based on Ag@AgCl nanocubes loaded RGO plasmonic heterostructure, Biosensors and Bioelectronics, 2019, 130: 125-131.
[7] Juan Tang*, Pengyuan Xiong, Jingjing Li, Yu Cheng, Xiaochun Tian, Ya Chen, Yuanfang Sun, Dianping Tang, Target-induced elimination of photosensitizer and formation insulation layer enabling ultrasensitive photoelectrochemical detection of ochratoxin A, Sensors and Actuators B: Chemical, 2019, 297: 126707.
[8] Juan Tang*, Lulu Huang, Yu Cheng, Junyang Zhuang, Ping Li, Dianping Tang, Nonenzymatic sensing of hydrogen peroxide using a glassy carbon electrode modified with graphene oxide, a polyamidoamine dendrimer, and with polyaniline deposited by the Fenton reaction, Microchimica acta, 2018, 185: 569.
[9] Cengceng Zhang, Juan Tang*, Lulu Huang, Yipei Li, Dianping Tang, In-situ amplified voltammetric immunoassay for ochratoxin A by coupling a platinum nanocatalyst based enhancement to a redox cycling process promoted by an enzyme mimic, Microchimica Acta, 2017, 184: 2445-2453.
[10] Juan Tang*, Yapei Huang, Huiqiong Liu, Cengceng Zhang, Dianping Tang*, Novel glucometer-based immunesensing strategy suitable for complex systems with signal amplification using surfactant-responsive cargo release from glucose-encapsulated liposome nanocarriers, Biosensors and Bioelectronics, 2016, 79: 508-514.
[11] Juan Tang*, Yapei Huang, Cengceng Zhang, Huiqiong Liu, Dianping Tang*, Amplified impedimetric immunosensor based on instant catalyst for sensitive determination of ochratoxin A, Biosensors and Bioelectronics, 2016, 86, 386-392.
[12] Juan Tang*, Dianping Tang*, Non-enzymatic electrochemical immunoassay using noble metal nanoparticles: a review, Microchimica Acta, 2015, 182: 2077-2089.
[13] Juan Tang, Jun Zhou, Qunfang Li, Dianping Tang*, Guonan Chen, Huanghao Yang, In situ Amplified Electronic Signal for Determination of Low-Abundance Proteins Coupling with Nanocatalyst-based Redox Cycling, Chemical Communications, 2013, 49: 1530-1532.
[14] Juan Tang, Li Hou, Dianping Tang*, Bing Zhang, Jun Zhou, Guonan Chen, Hemin/G-quadruplex-based DNAzyme Concatamers as Electrocatalysts and Biolabels for Amplified Electrochemical Immunosensing of IgG1, Chemical Communications, 2012, 48: 8180-8182.
专利:
[1] 汤娟;程昱;熊鹏媛;黄亚培,一种基于双重信号放大的光电化学赭曲霉毒素A检测方法,威廉希尔娱乐,ZL 2018103298792。
[2] 汤娟;刘丽萍;熊鹏媛;李晶晶;曾志瑶,一种基于生物诱导生成的溴氧化铋/硫化铋半导体异质结光电化学检测有机磷农药的方法,威廉希尔娱乐,ZL202010953873X.
[3] 汤娟;程宏丽;覃娇;刘丽萍;高珊,一种温度型生物传感器及利用温度型生物传感器检测目标适体的方法,威廉希尔娱乐,ZL2021105169904。
[4] 汤娟; 刘丽萍;熊鹏媛,一种基于酶催化产物裂解二氧化锰纳米花@硫化镉核壳结构的光电化学检测马拉硫磷的方法,威廉希尔娱乐,ZL2020100932764。
