华鑫（硕导）

华鑫，博士，副教授，硕导

Email: xinhua@seu.edu.cn

联系地址：江苏省南京市东南大学路2号

主要学习与工作经历：

2023.10-至今，东南大学，副教授

2020.11-2023.10，东南大学，讲师

2018.03-2020.09，华东理工大学，特聘副研究员

2016.01-2018.02，华东理工大学，师资博士后

2010.09-2015.12，东南大学，博士，专业：应用化学

2013.04-2015.04，美国Pacific Northwest National Laboratory，联合培养

2006.09-2010.06，东南大学，本科，专业：化学工程与工艺

研究方向：

表界面化学，表界面分析新方法，生物传感，光电催化

主持项目及入选计划：

（1）     江苏省自然科学基金面上项目，10万元，2023.7-2026.6；

（2）     入选东南大学“至善青年学者”计划，20万元，2022.1-2024.12；

（3）     国家自然科学基金青年基金，25万元，2018.1-2020.12；

（4）     入选上海市“青年科技英才”扬帆计划，20万元，2017.5-2020.4；

（5）     上海市自然科学基金面上项目，20万元，2017.5-2020.4；

（6）     中国博士后科学基金面上资助，5万元，2017.1-2017.12；

（7）     主持横向项目2项，总计到款22.5万元，2022.9-2026.9.

奖励荣誉：

•        获2022年东南大学教学竞赛三等奖；

•        2022年度“吾爱吾师”院系最受欢迎教师。

代表性论文：

1.        X. Hua; Q. Zhu; Y. Liu; S. Zhou; P. Huang; Q. Li; S. Liu*, A double tangential flow filtration-based microfluidic device for highly efficient separation and enrichment of exosomes. Anal Chim Acta 2023,1258, 341160.

2.        Y. Liu; G. Han; J. Gong; X. Hua*; Q. Zhu; S. Zhou; L. Jiang; Q. Li*; S. Liu, Intramolecular Fluorescence Resonance Energy Transfer Strategy for Accurate Detection of AFP-L3% and Improved Diagnosis of Hepatocellular Carcinoma. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 2023, 122950.

3.        X. Hua; H.-L. Xia; Y.-T. Long*, A tiny pore-confined solid-liquid interface for in-situ ToF-SIMS electrochemistry of nitrobenzoic acid. Electrochim Acta2022, 431, 141085.

4.        X. Hua; X. Liu; Q. Zhu; Y. Liu; S. Zhou; P. Huang; Q. Li; S. Liu*, Three-Dimensional Microfluidic Chip for Efficient Capture of Secretory Autophagosomes and Sensitive Detection of Their Surface Proteins. Analytical Chemistry2022, 94, 23, 8489–8496.

5.        X. Hua; H.-L. Xia; Y.-L. Ying; Y.-T. Long*, Proton-Coupled Electron Transfer of Coenzyme Q in Unbuffered Solution by Pore Confined In Situ Liquid ToF-SIMS. Journal of The Electrochemical Society 2022, 169, 2, 026525.

6.        S. Wu^#; X. Hua^#（共同一作）; B. Ma; H. Fan; R. Miao; M. Ulbricht; C. Hu; J. Qu, Three-Dimensional Analysis of the Natural-Organic-Matter Distribution in the Cake Layer to Precisely Reveal Ultrafiltration Fouling Mechanisms. Environmental Science & Technology 2021, 55, 8, 5442–5452.

7.        H.-W. Li; Z. Hu; X. Chen; J. Ren; H. Cui; M. Zhang; L. Chen; X. Hua*; J. Song*; Y.-T. Long, Investigation of Lipid Metabolism in Dynamic Progression of Coronary Artery Atherosclerosis of Humans by Time-of-Flight Secondary Ion Mass Spectrometry. Analytical Chemistry 2021,93 (8), 3839-3847.

8.        S. Wu^#; X. Hua^#（共同一作）; R. Miao; B. Ma; C. Hu; H. Liu; J. Qu, Influence of floc charge and related distribution mechanisms of humic substances on ultrafiltration membrane behavior. Journal of Membrane Science, 2020,609, 118260.

9.        J.-Q. Lou; Y. Cao; Y.-J. Yu; L. Hu; Z.-S. Mao; P. Huang; X. Hua*; F. Chen*, Investigation of heart lipid changes in acute β-AR activation-induced sudden cardiac death by time-of-flight secondary ion mass spectrometry. Analyst 2020,145 (17), 5889-5896.

10.     Y.-Y. Liu; X. Hua*; Z. Zhang; J. Zhang; S. Zhang; P. Hu; Y.-T. Long, pH-Dependent Water Clusters in Photoacid Solution: Real-Time Observation by ToF-SIMS at a Submicropore Confined Liquid-Vacuum Interface. Frontiers in Chemistry 2020,8 (731).

11.    X. Hua; H.-L. Xia; Y.-T. Long*, Revisiting a classical redox process on a gold electrode by operando ToF-SIMS: where does the gold go? Chemical Science, 2019, 10, 6215-6219.

12.    Y.-Y. Liu; S.-Z. Zhang; Y.-L. Ying; H.-L. Xia; X. Hua*; Y.-T. Long*, Ion-Specific Effects on Hydrogen Bond Network at a Submicropore Confined Liquid-Vacuum Interface: An in Situ Liquid ToF-SIMS Study, The Journal of Physical Chemistry Letters, 2019, 10, 17, 4935-4941.

13.    J.-G. Wang; X. Hua*; H.-L. Xia; Y.-T. Long*, Pore Confined Liquid-Vacuum Interface for Charge Transfer Study in Electrochemical Process, Analytical Chemistry, 2019, 91, 3195-3198.

14.    D. Xu; X. Hua*; L. Xu; W. Wu; Y.-T. Long*; H. Tian, Understanding How Ambiance Affect the Performance of Hole-Conductor-Free Perovskite Solar Cells from a Chemical Perspective, ACS Applied Energy Materials, 2019, 2, 2387–2391.

15.    H.-W. Li; X. Hua*; Y.-T. Long, Graphene quantum dots enhanced ToF-SIMS for single-cell imaging, Analytical and Bioanalytical Chemistry, 2019, 411, 4025–4030.

16.    X. Hua; H.-W. Li; Y.-T. Long*, Investigation of silver nanoparticle induced lipids changes on single cell surface by ToF-SIMS, Analytical Chemistry, 2018, 90, 1072–1076.

17.    D. Xu; X. Hua*; S.-C. Liu; H.-W. Qiao; H.-G. Yang; Y.-T. Long*; H. Tian, In situ and real-time ToF-SIMS analysis of light-induced chemical changes in perovskite CH₃NH₃PbI₃, Chemical Communications, 2018, 54, 5434-5437.

18.    X. Hua; L-J. Zhao; Y.-T. Long*, Investigation of the Ionization Mechanism of NAD+/ NADH-Modified Gold Electrodes in ToF-SIMS Analysis, Journal of The American Society for Mass Spectrometry, 2018, 29, 1567-1570.

19.    J. Lu; X. Hua*; Y.-T. Long, Recent advances in real-time and in situ analysis of an electrode–electrolyte interface by mass spectrometry, Analyst,2017, 142, 691-699.

20.    D. Huang; X. Hua*; G.-L. Xiu*; Y.-J. Zheng; X.-Y. Yu*; Y.-T. Long, Secondary ion mass spectrometry: The application in the analysis of atmospheric particulate matter, Analytica Chimica Acta,2017, 989, 1-14.

21.    X. Hua; C. Szymanski; Z. Wang; Y. Zhou; X. Ma; J. Yu; J. Evans; G. Orr; S. Liu*; Z. Zhu*, X.-Y. Yu*, Chemical imaging of molecular changes in a hydrated single cell by dynamic secondary ion mass spectrometry and super-resolution microscopy, Integrative Biology2016, 8, 635-644.

主讲课程：分析化学，大学化学综合实验