学习研究经历

1993-1997，88805j新莆京，理学学士

2000-2003，88805j新莆京，理学硕士

2005-2008，湖南大学，理学博士

2012-2013，美国Oakland University，博士后

2018.03-06，加拿大Alberta University，GALD项目访学

研究方向

电化学分析、荧光检测、压电生物传感

主讲课程

分析化学（一）、分析化学实验、仪器分析实验

教学/科研获奖

湖南省普通高校青年教师教学能手（2010）

湖南省普通高校青年骨干教师（2010）

湖南省自然科学奖一等奖（2016，5/6）

湖南省高等教育教学成果三等奖（2019，3/7）

湖南省基础教育教学成果特等奖（2022，集体）

通讯作者科研论文

[1] Y. Xie, X. He, R. Yu, Y. Jin, L. Tan*, Portable pH meter-based competitive immunoassay of E-selectin using urease-encapsulated metal-organic frameworks. Talanta, 2025, 287, 127613.

[2] P. Luo, Y. Xie, X. He, Y. He, X. Wang, L. Tan*, Application of Fenton chemistry in electrochemical determination of pyrophosphatase activity and fluoride. Talanta, 2024, 274, 125943.

[3] P. Luo, Y. Xie, X. He, W. Zhang, L. Tan*, Microvolumetric determination of thrombomodulin based on competitive immunoreaction using a portable glucometer, Microchimica Acta, 2024, 191, 585.

[4] X. Wang, M. He, R. Yu, L. Tan*, Porous boron-doped graphitic carbon nitridebased label-free electrochemical immunoassay of vascular endothelial cadherin. Analytical Methods, 2024, 16, 7114–7120.

[5] M. He, P. Luo, Y. Xie, Y. He, X. Wang, L. Tan*, Electrochemical determination of vascular endothelial growth factor using functional metal-polymer nanocomposites. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2023, 677, 132380.

[6] N. Zhang, L. Zhao, M. He, P. Luo, L. Tan*, Assay of inorganic pyrophosphatase activity based on a fluorescence“turn–off” strategy using carbon quantum dots@Cu-MOF nanotubes. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2023, 284, 121771.

[7] L. Zhao, N. Zhang, M. He, P. Luo, L. Tan*, A nanozymebased competitive electrochemical immunosensor for the determination of Eselectin. Microchimica Acta, 2022, 189, 406.

[8] T. Zhai, R. Li, N. Zhang, L. Zhao, M. He, L. Tan*, Simultaneous detection of sulfite and nitrite on graphene oxide nanoribbons-gold nanoparticles composite modified electrode. Electroanalysis, 2022, 34, 103–110.

[9] R. Li, T. Zhai, L. Zhao, N. Zhang, M. He, L. Tan*, Preparation of poly(caffeic acid)-CoP nanoparticle film on electrode surface and sensitive voltammetric detection of acetaminophen. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2021, 627, 127173.

[10] B. Tian, L. Zhao, R. Li, T. Zhai, N. Zhang, Z. Duan, L. Tan*, Electrochemical immunoassay of endothelin-1 based on a Fenton-type reaction using Cu(II)-containing nanocomposites as nanozymes. Analytical Chemistry, 2020, 92, 15916−15926.

[11] M. Wang, B. Tian, Y. Xue, R. Li, T. Zhai, L. Tan*, Determination of aminophylline based on fluorescence quenching of amino-functionalized graphene quantum dots induced by photoilluminated riboflavin-aminophylline system. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2020, 235, 118306.

[12] Y. Xue, B. Tian, M. Wang, T. Zhai, R. Li, L. Tan*, Well-dispersed poly(cysteine)-Ni(OH)₂ nanocomposites on graphene modified electrode surface for highly sensitive non-enzymatic glucose detection. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2020, 591, 124549.

[13] X. Jiang, Y. Kou, J. Lu, Y. Xue, M. Wang, B. Tian, L. Tan*, Fluorescence “on-off-on” assay of copper ions and EDTA using amino-functionalized graphene quantum dots. Journal of Fluorescence, 2020, 30, 301–308.

[14] B. Tian, Y. Kou, X. Jiang, J. Lu, Y. Xue, M. Wang, L. Tan*, Ultrasensitive determination of mercury ions using a glassy carbon electrode modified with nanocomposites consisting of conductive polymer and amino-functionalized graphene quantum dots. Microchimica Acta, 2020, 187, 210.

[15] J. Lu, Y. Kou, X. Jiang, M. Wang, Y. Xue, B. Tian, L. Tan*, One-step preparation of poly(glyoxal-bis(2-hydroxyanil))-amino-functionalized graphene quantum dots-MnO₂composite on electrode surface for simultaneous determination of vitamin B2 and dopamine. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2019, 580, 123652.

[16] Y. Kou, J. Lu, X. Jiang, B. Tian, Y. Xue, M. Wang, L. Tan*, Electrochemical determination of vitamin B12 based on Cu²⁺-involved Fenton-like reaction. Electroanalysis, 2019, 31, 1155–1163.

[17] Y. Li, W. Zhang, X. Jiang, Y. Kou, J. Lu, L. Tan*, Investigation of photo-induced electron transfer between amino-functionalized graphene quantum dots and selenium nanoparticle and its application for sensitive fluorescent detection of copper ions. Talanta, 2019, 197, 341–347.

[18] L. Kong, Y. Li, C. Ma, B. Liu, L. Tan*, Sensitive immunoassay of von willebrand factor based on fluorescence resonance energytransfer between graphene quantum dots and Ag@Au nanoparticles. Colloids and Surfaces B: Biointerfaces, 2018, 165, 286–292.

[19] W. Wang, C. Ma, Y. Li, B. Liu, L. Tan*, One-pot preparation of conducting composite containing abundant amino groups on electrode surface for electrochemical detection of von willebrand factor. Applied Surface Science, 2018, 433, 847–854.

[20] B. Liu, C. Ma, Y. Li, Y. Kou, J. Lu, X. Jiang, L. Tan*, Voltammetric determination of reduced glutathione using poly(thionine) as a mediator in the presence of Fenton-type reaction. Talanta, 2017, 170, 399–405.

[21] W. Wang, L. Kong, J. Zhu, L. Tan*, One-pot preparation of conductive composite containing boronic acid derivative for non-enzymatic glucose detection. Journal of Colloid and Interface Science, 2017, 498, 1–8.

[22] L. Kong, J. Zhu, W. Wang, L. Jin, Y. Fu, B. Duan, L. Tan*, Highly sensitive turn-on fluorescence detection of thrombomodulin based on fluorescence resonance energy transfer. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy,2017, 173, 675–680.

[23] J. Zhu, W. Wang, L. Kong, C. Ma, Y. Li, B. Liu, L. Tan*, Real-time monitoring of oxidative injury of vascular endothelial cells and protective effect of quercetin using quartz crystal microbalance. Analytical and Bioanalytical Chemistry, 2016, 408, 8415–8425.

[24] T. Liu, Y. Luo, L. Kong, J. Zhu, W. Wang, L. Tan*, Voltammetric detection of Cu²⁺using poly(azure A) modified glassy carbon electrode based on mimic peroxidase behavior. Sensors and Actuators B-Chemical,2016, 235, 568–574.

[25] T. Liu, Y. Luo, J. Zhu, L. Kong, W. Wang, L. Tan*, Non-enzymatic detection of glucose using poly(azureA)-nickel modified glassy carbon electrode. Talanta, 2016, 156-157, 134–140.

[26] Y. Luo, T. Liu, J. Zhu, L. Kong, W. Wang,L. Tan*,Label-free and sensitive detection of thrombomodulin, a marker of endothelial cell injury, using quartz crystal microbalance. Analytical Chemistry, 2015, 87, 11277–11284.

[27] T. Liu, Y. Luo, W. Wang, L. Kong, J. Zhu, L. Tan*, Non-enzymatic detection of hydrogen peroxide based on Fenton-type reaction on poly(azure A)-chitosan/Cu modified electrode. Electrochimica Acta, 2015, 182, 742–750.

[28] L. Chen, Y. Luo, T. Liu, Y. Yuan, H. Gu, Y. Yang, L. Li, L. Tan*, Label-free electrochemical immunoassay of Bcl-2 protein expression on tumor cells. Talanta, 2015, 132, 479–485.

[29] B. Huang, N. Jia, L. Chen, L. Tan*, S. Yao. Electrochemical impedance spectroscopy study on polymerization of L-lysine on electrode surface and its application for immobilization and detection of suspension cells. Analytical Chemistry, 2014, 86, 6940–6947.

[30] N. Jia, B. Huang, L. Chen, L. Tan*, S. Yao. A simple non-enzymatic hydrogen peroxide sensor using gold nanoparticles-graphene-chitosan modified electrode. Sensors and Actuators B-Chemical,2014, 195, 165–170.

[31] L. Zhu, L. Xu, B. Huang, N. Jia, L. Tan*, S. Yao. Simultaneous determination of Cd(II) and Pb(II) using square wave anodic stripping voltammetry at a gold nanoparticle-graphene-cysteine composite modified bismuth film electrode. Electrochimica Acta, 2014, 115, 471–477.

[32] L. Xu, L. Zhu, N. Jia, B. Huang, L. Tan*, S. Yang, H. Tang, Q. Xie, S. Yao. Quantification of Bax protein on tumor cells based on electrochemical immunoassay. Sensors and Actuators B-Chemical, 2013, 186, 506–514.

[33] L. Zhu, L. Xu, N. Jia, B. Huang, L. Tan*, S. Yang, S. Yao. Electrochemical immunoassay for carcinoembryonic antigen using gold nanoparticle–graphene composite modified glassy carbon electrode. Talanta, 2013, 116, 809–815.

[34] L. Zhu, L. Xu, L. Tan*, H. Tan, S. Yang, S. Yao. Direct electrochemistry of cholesterol oxidase immobilized on gold nanoparticles-decorated multiwalled carbon nanotubes and cholesterol sensing. Talanta, 2013, 106, 192–199.

[35] B. Zhou, X. Xiao, L. Xu, L. Zhu, L. Tan*, H. Tang, Y. Zhang, Q. Xie, S. Yao. Electrochemical immunoassay on expression of integrin β1 on tumor cells and drug-resistant tumor cells. Biosensors and Bioelectronics, 2012, 38, 389–395.

[36] B. Zhou, X. Xiao, L. Xu, L. Zhu, L. Tan*, H. Tang, Y. Zhang, Q. Xie, S. Yao. A dynamic study on reversal of multidrug resistance by ginsenoside Rh2 in adriamycin-resistant human breast cancer MCF-7 cells. Talanta, 2012, 88, 345–351.

[37] X. Xiao, B. Zhou, L. Zhu, L. Xu, L. Tan*, H. Tang, Y. Zhang, Q. Xie, S. Yao. An reagentless glucose biosensor based on direct electrochemistry of glucose oxidase immobilized on poly(methylene blue) doped silica nanocomposites. Sensors and Actuators B-Chemical, 2012, 165, 126–132.

[38] X. Xiao, B. Zhou, L. Tan∗, H. Tang, Y. Zhang, Q. Xie, S. Yao, Poly(methylene blue) doped silica nanocomposites with crosslinked cage structure: Electropolymerization, characterization and catalytic activity for reduction of dissolved oxygen. Electrochimica Acta, 2011, 56, 10055–10063.

[39] X. Jiang,L. Tan*, B. Zhang, Y. Zhou, S. Yao, Q. Xie, In vitro electrochemical study on combined cytotoxicity of5-Fluorouracil and three types of nanoparticles against MG-63 cells. Analytical Letters, 2011, 44, 698–708.

[40] X. Jiang,L. Tan*, B. Zhang, Y. Zhang, H. Tang, Q. Xie, S. Yao, Detection of adherent cells using electrochemical impedance spectroscopy based on molecular recognition of integrin β1. Sensors and Actuators B-Chemical, 2010, 149, 87–93.

主持的教学改革课题

[1] 国家级一流本科专业建设点—化学

[2] 湖南省基础教育教学改革研究项目，“‘湖湘版’高中化学选修课程教材编撰研究”，2023-2026.

[3] 湖南省普通高等学校课程思政建设研究项目，“师范专业实验课程体系课程思政建设研究—以化学专业为例”，2020-2022.

[4] 湖南省普通高等学校教学改革研究项目，“多媒体辅助双语分析化学实验教学研究”，2012-2016.

课程建设

[1] 湖南省普通高校精品在线开放课程，“分析化学”，2023.

[2] 湖南省普通高校线下一流本科课程，“分析化学实验”，2020.

[3] 湖南省普通高校虚拟仿真实验教学项目，“Salen类配合物合成与结构确认3D虚拟仿真综合实验”，2018.

教研教改论文

[1] 谭亮,陈超,魏琳,谭月明,马铭.分析化学(一)教学与科研互促的实践探索.大学化学,2021, 36, 2104002.

[2] 谭亮,陈超,方正法,马铭.多媒体辅助双语分析化学实验教学模式探索.实验室科学, 2017, 20, 235-237.

[3] 谭亮,徐琼,赵海红,杨蓉,袁露,荣春英,陈超.化学化工虚拟仿真实验教学中心的建设与思考.第十三届全国大学化学教学研讨会论文集, ISBN978-7-5629-5043-1,武汉理工大学出版社, 2015.

[4] 谭亮,杨素芳,马铭,唐浩,郭宾.微型分析化学实验教学与“两型社会”观教育.实验室研究与探索, 2012, 31, 116-118.

[5] 谭亮,彭建辉,方正法,马铭,吴吉娜.加强科学管理,建设节约型实验室.实验室研究与探索, 2007, 26, 151-152.

[6] 谭亮,吴吉娜,于风江,李则林.论高校实验室建设与管理工作中的几个误区.实验技术与管理, 2004, 94, 160-162.

社会兼职

[1] 湖南省化学化工学会第12届理事会常务理事

[2] 《大学化学》第6届编委会编委

 

联系信息

E-mail: liangtan@hunnu.edu.cn