李传平 - RayBetApp官网下载

姓名：李传平

部门：化学与环境工程学院

地址：芜湖市北京中路RayBetApp官网下载2号楼2209室

邮编：241000

Email:licp@ahpu.edu.cn

博士、校聘教授，安徽省高校优青，安徽省拔尖人才青年学者。近5年，主持国家自然科学基金等国家及省部级以上项目6项，以第一/通讯作者在Adv. Funct. Mater.、Anal. Chem.、Iscience、Small、Small Struct.、Chem. Eng. J.、ACS Appl. Mater. Interfaces等学术期刊发表论文近30篇，申请中国发明专利3件。

学术经历：

2023.03-至今，RayBetApp官网下载，校聘教授，硕士生导师

2021.12-2023.02，RayBetApp官网下载，副教授，硕士生导师

2019.05-2021.11，RayBetApp官网下载，讲师

2019.01-2019.05，中国科学院长春应用化学研究所，助理研究员

2013.08-2018.12，中国科学院长春应用化学研究所，博士（硕博连读，导师金永东研究员）

开设课程：

主要开设《仪器分析》、《纳米材料基础》（中英双语）等课程

研究方向：

生物纳米传感分析化学、光电能源转化化学

获奖情况：

1.RayBetApp官网下载先进个人，2023年；

2.RayBetApp官网下载第二十届“青年教师优秀论文奖”一等奖；

3.RayBetApp官网下载第二十二届“青年教师优秀论文奖”一等奖；

4.杭天翔，RayBetApp官网下载2023届优秀硕士学位论文，安徽省优秀毕业生（考取南京理工大学攻读博士学位）

5.孟幸幸，RayBetApp官网下载2024届优秀硕士学位论文（考取武汉大学攻读博士学位）

6.李硕人，“挑战杯”安徽省大学生课外科技学术作品竞赛二等奖、RayBetApp官网下载十佳大学生、RayBetApp官网下载鑫龙奖学金（考取香港科技大学（广州）攻读硕士学位）

7.李硕人，“合力杯”RayBetApp官网下载课外科技学术作品竞赛二等奖（指导教师）

李硕人，“互联网+”RayBetApp官网下载创新创业大赛一等奖（指导教师）

主持项目：

1. 国家自然科学基金青年基金项目，基于协同耦合策略构筑超灵敏plasmonic PEC纳米生物传感器的研究(22004002)，2020-2023，主持；

2. 安徽省高校优秀青年基金项目，基于光电免疫分析的体外检测技术及其应用(2022AH030100)，2022-2025，主持；

3. 安徽省高端人才引育计划拔尖人才青年学者，2024-2027，主持；

4. 安徽省自然科学基金青年基金项目，MOF基全光谱耦合光电化学生物传感器用于疾病标志物cTnI的检测研究(2008085QB80)，2020-2022，主持；

5. 安徽省青年骨干教师培育计划境内访学研修项目(JNFX2023016)，2024-2027，主持；

6. 电分析国家重点实验室开放基金项目，新型MOF基plasmonic纳米生物传感器构建与应用研究(SKLEAC202103), 2020-2022，主持；

7. 安徽省功能配合物材料化学与应用重点实验室开放基金, MOFs基仿生Z型光电催化剂设计及其催化性能研究(LFCCMCA-10), 2021-2022，主持；

8. RayBetApp官网下载科研启动基金，Plasmonic增强TiO₂/Fe₂O₃核壳纳米管阵列异质结光阳极的制备及其在光电催化裂解水方面的应用研究(2019YQQ016)，2019-2022，主持；

代表性论文：

1. Xingxing Meng, Jing Wang, Leilei Diao, andChuanping Li*.Construction of Multi-Mode Photoelectrochemical Immunoassays for Accurate Detection of Cancer Markers: Assisted with MOF Confined Plasmonic Nanozyme.Anal. Chem.2024,96, 1336-1344.

2. Jing Wang, Ran Hong, Zhen Yang, Xingxing Meng, Rui Wu, Zhiguo Liu,Chuanping Li*. Ultrasensitive Electrochemiluminescence Biosensor with ZIF-67@MXene as an Efficient Co-Reaction Accelerator and Plasmonic Nanozyme as a Smart Signal Amplification Probe.Small,2024, 2404330.

3. Xingxing Meng, Jing Wang, Zhen Yang, Zhiguo Liu, Zongrui Zhang, Shuijian He,Chuanping Li*. Construction of smartphone-adapted signal visualization platform for dual-mode detection of H₂S based on integrated metal-organic framework nanoprobes.Talanta2024,270, 125517.

4. Jing Wang, Shuijian He, Haiyan Zhang, Zhen Yang, Zhiguo Liu, Hanxiang Yu,Chuanping Li*.Atomically Fe(III) anchored metal-organic frameworks-based fluorescent nanozyme for smartphone-adopted chemiluminescence-fluorescence dual-mode analysis of Uric acid.Anal. Chim. Acta2024,1330, 343286.

5. Chuanping Li*, Tianxiang Hang, Yongdong Jin.Atomically Fe-anchored MOF-on-MOF nanozyme with differential signal amplification for ultrasensitive cathodic electrochemiluminescence immunoassay.Exploration2023,3, 20220151.

6. Shuoren Li, Ping Ge, Tianxiang Hang, Hui Zhou, Feifei Guo, Yueyue Wu,Chuanping Li*，Defect-engineered plasmonic Z-scheme heterostructures for superior photoelectrochemical water oxidation,Applied Surface Science,2023,610, 155454.

7. Ping Ge, Tianxiang Hang, Yueyue Wu, Shuoren Li, Xingxing Meng,Chuanping Li*, Metal−organic Framework-Derived CoS_x/NiS Co-Decorated Heterostructures: Toward Simultaneous Acceleration of Charge Carrier Separation and Catalytic Kinetics,ACS Applied Energy Materials,2023,6, 278–284.

8. Tianxiang Hang, Xingxing Meng, Yueyue Wu, Xian-Dong Zhu*,Chuanping Li*, Ion-Exchange Reaction-Mediated Hierarchical Dual Z‑Scheme Heterojunction for Split-Type Photoelectrochemical Immunoassays,Analytical Chemistry,2022,94, 17295-17302.

9. Tianxiang Hang,Chuanping Li*, Dandan Liang, Shuoren Li, Hui Zhou, Ping Ge, Xiandong Zhu*, Tianfu Liu.Metal-organic frameworks-based hierarchical heterojunction coupling with plasmonic nanoshells for self-powered photoelectrochemical immunoassay.Chemical Engineering Journal,2022,431, 133465.

10. Hui Zhou, Xian-Dong Zhu *, Ping Ge, Tianxiang Hang, Shuoren Li, Feifei Guo, Yueyue Wu,Chuanping Li*, Synergistic coupling of surface plasmon resonance with metal-organic frameworks based biomimetic Z-Scheme catalyst for enhanced photoelectrochemical water splitting,Applied Surface Science,2022,605, 154693.

11.Chuanping Li,Shuoren Li, Tianxiang Hang, Feifei Guo, Xian-Dong Zhu,* Tian-Fu Liu*. Metal–Organic Frameworks Derived Plasmonic Catalyst with Full Spectral Response for Photoelectrochemical Water Splitting Enhancement.Small Structures,2022, 3, 2100071.

12.Chuanping Li, Yongdong Jin*. Shell-Isolated Plasmonic Nanostructures for Biosensing, Catalysis, and Advanced Nanoelectronics.Advanced Functional Materials,2021, 2008031.

13.Chuanping Li*, Shuoren Li, Chen Xu, Kongshuo Ma.Plasmon-enhanced unidirectional charge transfer for efficient solar water oxidation.Nanoscale,2021,13, 4654.

14.Chuan-Ping Li,Wei–Wei Long, Zhen Lei, Ling Guo, Ming-Jun Xie, Jian Lü* and Xian–Dong Zhu*.Anionic metal-organic framework as a unique turn-on fluorescent chemical sensor for ultra-sensitive detection of antibiotics,Chemical Communications,2020,56, 12403-12406.

15.Shanshan Wang^#,Chuanping Li^#, Muhammad Saqib, Guohua Qi, Chunhua Ge, Haijuan Li*, Yongdong Jin*. Quasi-Photonic Crystal Light-Scattering Signal Amplification of SiO₂-Nanomembrane for Ultrasensitive Electrochemiluminescence Detection of Cardiac Troponin I,Analytical Chemistry,2020,92, 845.

16.Chuanping Li^#, Shanshan Wang^#, Haijuan Li, Muhammad Saqib, Chen Xu, Yongdong Jin*. Nanoengineered Metasurface Immunosensor with over 1000-Fold Electrochemiluminescence Enhancement for Ultra-sensitive Bioassay,iScience,2019,17, 267.

17.Chuanping Li, David Cahen, Ping Wang, Haijuan Li, Jie Zhang, Yongdong Jin*. Plasmonics Yields Surprisingly Efficient Electron Transport via Assembly of Shell-Insulated Au Nanoparticles.iScience,2018，8，213.

18.Chuanping Li, Ping Wang, Haijuan Li, Minmin Wang, Jie Zhang, Guohua Qi, Yongdong Jin*. Plasmon-driven water splitting enhancement on plasmonic metal–insulator–semiconductor hetero-nanostructures: unraveling the crucial role of interfacial engineering，Nanoscale,2018,10, 14290.

19.Chuanping Li, Ping Wang, Yu Tian, Xiaolong Xu, Hui Hou, Minmin Wang, Guohua Qi, Yongdong Jin*. Long-Range Plasmon Field and Plasmoelectric Effect on Catalysis Revealed by Shell Thickness-Tunable Pinhole-Free Au@SiO₂Core-Shell Nanoparticles: A Case Study of p-Nitrophenol Reduction,ACS Catalysis,2017,7, 5391.

20.Haoxi Wu^#,Chuanping Li^#, Zhenlu Zhao, Haijuan Li, and Yongdong Jin*. Free-Standing Monolayered Metallic Nanoparticle Networks as Building Blocks for Plasmonic Nanoelectronic Junctions,ACS Applied Materials﹠Interfaces,2016,8, 1594.