研究方向:
(1) 生命及环境科学中的新分析方法(电/光电化学传感)
(2) 功能材料的制备及应用
讲授课程:
(1)《分析化学》
(2)《分析化学实验》
(3)《物理化学实验》
学术成就:
海南省自由贸易港“D类人才”;2022年6月于湖南大学获得理学博士学位;2022年7月加入永利集团“先进功能多孔材料”团队。主要研究领域为电/光电化学传感。在Anal. Chem.,Biosens. Bioelectron.,Chem. Commun.,Anal. Chim. Acta等高水平期刊上发表SCI论文十余篇。
科研项目:
(1) 国家自然科学基金青年项目,2230040493,基于hemin-MOFs的急性心肌梗塞标志物负背景光电化学-比色双模分析,2024.01-2026.12,30万元,主持
(2) 永利集团协同创新中心项目,XTCX2022STC19,基于光电流信号翻转的传感器构建及其重金属离子的特异性检测研究,2022.09-2025.08,30万元,主持
(3) 永利集团科研启动经费项目,KYQD(ZR)23034,基于MOFs衍生中空材料的光电化学传感研究,2022.06-2027.06,30万元,主持
(4) 国家自然科学基金面上项目,22074033,蛋白磷酸酶活性的光电化学-压电双模式免标记分析,2021.01-2024.12,63万元,参与
(5) 国家自然科学基金重大科研仪器研制项目,21727810,高频无极石英晶体阵列生物传感分析仪,2018.01-2022.12,576万元,参与
论著专利:
(1) Fu, Y.; Fan, B.; Chang, S.; Guo, D.; Wang, F.; Pan, Q., An ultrasensitive photoelectrochemical assay for tumor necrosis factor-alpha based on hollow CdS cubes as a signal generator and NiCo2O4-Au as a signal extinguisher. Analyst 2023, 148, 4746-4752.
(2) Fu, Y.; Du, C.; Zhang, Q.; Xiao, K.; Zhang, X.; Chen, J., Colorimetric and photocurrent-polarity-switching photoelectrochemical dual-mode sensing platform for highly selective detection of mercury ions based on the split G-quadruplex-hemin complex. Analytical Chemistry 2022, 94, 15040-15047.
(3) Fu, Y.; Xiao, K.; Zhang, Q.; Zhang, X.; Du, C.; Chen, J., Highly selective photoelectrochemical assay of arsenate based on magnetic Co3O4-Fe3O4 cubes and negative background signal strategy. Analytical Chemistry 2022, 94, 1874-1881.
(4) Fu, Y.; Xiao, K.; Zhang, X.; Du, C.; Chen, J., Peptide cleavage-mediated and environmentally friendly photocurrent polarity switching system for prostate-specific antigen assay. Analytical Chemistry 2021, 93 (2), 1076-1083.
(5) Fu, Y.; Yu, Q.; Zhang, Q.; Zhang, X.; Du, C.; Chen, J., A photocurrent-polarity-switching biosensor for highly selective assay of mucin 1 based on target-induced hemin transfer from ZrO2 hollow spheres to G-quadruplex nanowires. Biosensors and Bioelectronics 2021, 192, 113547.
(6) Fu, Y.; Zou, K.; Liu, M.; Zhang, X.; Du, C.; Chen, J., Highly selective and sensitive photoelectrochemical sensing platform for VEGF165 assay based on the switching of photocurrent polarity of CdS QDs by porous Cu2O-CuO flower. Analytical Chemistry 2020, 92 (1), 1189-1196.
(7) Fu, Y.; Ding, F.; Chen, J.; Liu, M.; Zhang, X.; Du, C.; Si, S., Label-free and near-zero-background-noise photoelectrochemical assay of methyltransferase activity based on a Bi2S3/Ti3C2 Schottky junction. Chemical Communications 2020, 56 (43), 5799-5802.
(8) Yu, Q.‡;Fu, Y.‡; Xiao, K.; Zhang, X.; Du, C.; Chen, J., A label-free photoelectrochemical biosensor with ultra-low-background noise for lead ion assay based on the Cu2O-CuO-TiO2 heterojunction. Analytica Chimica Acta 2022, 1195, 339456.
(9) Fu, Y.; Huang, D.; Li, C.; Zou, L.; Ye, B., Graphene blended with SnO2 and Pd-Pt nanocages for sensitive non-enzymatic electrochemical detection of H2O2 released from living cells. Analytica Chimica Acta 2018, 1014, 10-18.
(10) Fu, Y.; Wang, L.; Duan, Y.; Zou, L.; Ye, B., Facile synthesized SnO2 decorated functionalized graphene modified electrode for sensitive determination of daidzein. Talanta 2017, 168, 1-9.
(11) Fu, Y.; Wang, L.; Huang, D.; Zou, L.; Ye, B., A new calcium germanate-graphene nanocomposite modified electrode as efficient electrochemical sensor for determination of daphnetin. Journal of Electroanalytical Chemistry 2017, 801, 77-83.
(12) 付亚敏;闫小霞;张小华;陈金华,基于催化发卡自组装和Ru(NH4)63+的核酸光电化学灵敏分析. 电化学 2019, 25(2), 232-243.