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硕士研究生导师-曹海燕


来源:化学化工学院 作者: 日期:2021-06-18 访问次数:4238


曹海燕,女,中共党员,副教授,理学博士,硕士生导师。在201406月于西南大学化学化工学院博士毕业,随后作为助理研究员在中国科学院重庆绿色智能技术研究院工作2年,于201704月到长江师范学院化学化工学院工作至今。

主要从事纳米材料的合成及其在生化和环境分析中的应用研究。先后主持了国家自然科学基金项目1项,重庆市科委自然科学基金3项,重庆市教委项目2项,作为项目主研人曾参与国家自然科学基金2项、中科院STS项目《三峡水库生态环境在线监测关键技术及系统集成研究》、中国科学院西部行动计划项目《三峡水库水质移动监测技术体系构建及应用示范》和国家十二五水体污染控制与治理科技重大专项课题《三峡库区水生态环境感知系统及平台业务化运行》等项目。在Chemical Engineering JournalBiosensors and Bioelectronics, ACS Sustainable Chemistry &EngineeringACS Applied Materials Interfaces等国内外知名刊物上发表学术论文40余篇,他引达1500余次,获得授权发明专利4项。

承担本科生《仪器分析》、《仪器分析实验》、《无机及分析化学》、《无机及分析化学实验》等课程。

联系邮箱caohaiyan@yznu.edu.cn513923170@qq.com

学习及工作经历

一、教育经历

2005.09—2009.07  西南大学化学化工学院化学类专业大学,理学学士

2009.09—2014.07  西南大学化学化工学院环境分析化学专业研究生,理学博士

2019.07—2019.12     公派出国留学高级英语培训,合格

二、工作经历

2014.07—2017.04  中国科学院重庆绿色智能技术研究院智能所,助理研究员

2017.04—2018.11  长江师范学院化学化工学院,讲师

2018.12-至今      长江师范学院化学化工学院,副教授

主持的主要科研项目(不超过20项)

(1) 2018年度国家自然科学基金青年基金项目,基于二硫化钼量子点的上转换荧光特性建立快速检测微囊藻毒素的新方法、2018/01-2020/12,主持。

(2) 2022年重庆市自然科学基金面上项目, DNA荧光智能水凝胶的骨架网络结构调控机制及其应用于环境污染物实时传感阵列, 2022/08- 2025/07,主持。

(3) 2017年度重庆市社会事业与民生保障科技创新专项项目,基于碳点建立定量评估三峡库区中微囊藻毒素的有效分布和验证方法,2017/07-2020/07,主持。

(4) 2018年度重庆市基础研究与前沿探索项目,基于氧化钼量子点的可调控机制实现对环境污染物的双信号输出分析,2018/08-2021/08, 10万元,主持。

(5) 2013年度国家自然科学基金项目,去除纳米污染物的功能化蛋壳膜生物材料构建及作用机理研究,2013/01-2016/12,主研。

(6) 2010年度国家自然科学基金项目,基于纳米微粒模拟酶的化学发光体构建及其分析应用研究,2010/01-2013/12,主研。

代表性论文、专利、专著、奖励(不超过20篇):

[1] H.Y. Cao*, Y.W. Lu, X.D. Zhang, W.F Dong, W.B Shi, Y.M. Huang*, Engineering a simple multisignal-output probe for measuring residual peroxymonosulfate in advanced oxidation reactions, Chemical Engineering Journal, 471 (2023) 144663.

[2] H.Y. Cao*, X.D. Zhang, M.J Tang, W.F Dong, W.B Shi, Amplified fluorescence sensing of Cr(VI) enabled by AIE-active copper nanoclusters functionalized hydrogels to afford a smartphone-enabled colorimetric platform, Sensors and Actuators: B. Chemical, 392 (2023) 134066.

[3] H.Y. Cao*, W.F. Dong, T.L. Wang, W.B. Shi, C.C. Fu, Y. Wu, Aptasensor based on MoS2 quantum dots with upconversion fluorescence for microcystin-LR detection via the inner filter effect, ACS Sustainable Chemistry & Engineering, 8 (2020) 10939-10946.

[4 S. Li, Y. Hou, Q. Chen, X. Zhang, H. Cao*, Y. Huang*, Promoting Active sites in mof-derived homobimetallic hollow nanocages as a high-performance multifunctional nanozyme catalyst for biosensing and organic pollutant degradation, ACS Applied Materials & Interfaces, 12 (2020) 2581-2590.

[5] Q. Du, X. Zhang, H. Cao*, Y. Huang*, Polydopamine coated copper nanoclusters with aggregation-induced emission for fluorometric determination of phosphate ion and acid phosphatase activity, Microchimica Acta, 187 (2020) 357.

[6] X. Hu, X.D. Liu, X.D. Zhang, H.Y. Cao*, Y.M. Huang*, MnO2 nanowires tuning of photoluminescence of alloy Cu/Ag NCs and thiamine enables a ratiometric fluorescent sensing of glutathione, Sensors and Actuators B-Chemical, 286 (2019) 476-482.

[7] H. Cao*, X. Hu, W. Shi, S. Li, Y. Huang*, pH-regulated reversible photoluminescence and localized surface plasmon resonances arising from molybdenum oxide quantum dot, Applied Materials Today, 18 (2020) 100516.

[8] Y.Y. Li, Q.Q. Du, X.D. Zhang, H.Y. Cao*, Y.M. Huang*, Kojic acid capped gold nanoclusters with aggregation-induced emission for fluorometric screening of the activity of alkaline phosphatase, Microchimica Acta, 186 (2019).

[9] T. Wang, X. Hu, X. Zhang, H. Cao*, Y. Huang*, P. Feng*, MoS2 QDs co-catalytic Fenton reaction for highly sensitive photoluminescence sensing of H2O2 and glucose, Analytical Methods, 11 (2019) 415-420.

[10] Y. Xie, Y. Huang*, D. Tang, H. Cui, L. Yang, H. Cao*, W. Yun*, Sensitive colorimetric detection for lysozyme based on the capture of a fixed thiol-aptamer on gold nanoparticles, New Journal of Chemistry, 43 (2019) 4531-4538.

[11] Y. Zhuang, X. Zhang, Q. Chen, S. Li, H. Cao*, Y. Huang*, Co3O4/CuO hollow nanocage hybrids with high oxidase-like activity for biosensing of dopamine, Materials Science & Engineering C-Materials for Biological Applications, 94 (2019) 858-866.

[12] Q. Du, X. Hu, X. Zhang, H. Cao*, Y. Huang*, Ultrasensitive detection of glutathione based on a switch-on fluorescent probe of AIE-type red-emitting copper nanoclusters, Analytical Methods, 11 (2019) 3446-3451.

[13] H. Cao*, Y. Huang, Y. Xie, W. Shi*, C. Fu, W. He, A fast-responsive fluorescent probe for sensitive detection of graphene oxide based on MoS2 quantum dots, Analyst, 143 (2018) 3107-3113.

[14] Y. Li, X. Hu, X. Zhang, H. Cao*, Y. Huang*, Unconventional application of gold nanoclusters/Zn-MOF composite for fluorescence turn-on sensitive detection of zinc ion, Analytica Chimica Acta, 1024 (2018) 145-152.

[15] Y. Xie, Y. Huang*, D. Tang, H. Cui, H. Cao*, A competitive colorimetric chloramphenicol assay based on the non-cross-linking deaggregation of gold nanoparticles coated with apolyadenine-modified aptamer, Microchimica Acta, 185 (2018).

[16] Y. Zhao, Y. Huang*, J. Wu, X. Zhan, Y. Xie, D. Tang, H. Cao*, W. Yun, Mixed-solvent liquid exfoliated MoS2 NPs as peroxidase mimetics for colorimetric detection of H2O2 and glucose, RSC Advances, 8 (2018) 7252-7259.

[17] H. Cao*, H. Wang, Y. Huang*, Y. Sun, S. Shi, M. Tang, Quantification of gold(III) in solution and with a test stripe via the quenching of the fluorescence of molybdenum disulfide quantum dots, Microchimica Acta, 184 (2017) 91-100.

[18] Y. Sun#, H. Cao#, Y. Yuan, Y. Huang, H. Cui, W. Yun, Electrically Tunable Fiber Optic Sensor Based on Surface Plasmon Resonance, Plasmonics, 11 (2016) 1437-1444.

[19] H. Cao, Z. Chen, Y. Huang*, Copper nanocluster coupling europium as an off-to-on fluorescence probe for the determination of phosphate ion in water samples, Talanta, 143 (2015) 450-456.

[20] H. Cao, Z. Chen, H. Zheng, Y. Huang*, Copper nanoclusters as a highly sensitive and selective fluorescence sensor for ferric ions in serum and living cells by imaging, Biosensors & Bioelectronics, 62 (2014) 189-195.

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