李丹,女,博士,2025年毕业于中山大学化学学院,获得博士学位。主要研究方向为环境分析化学、复杂体系分离分析、快速检测技术,参与完成多项国家级和省部级项目。主要研究成果在Analytical Chemistry, TRAC-Trends in Analytical Chemistry,Sensors and Actuators B: Chemical等重要国际学术刊物上发表。申请发明专利13项,授权8项。
研究方向及兴趣:
1. 环境分析化学:建立各类痕量污染物快速检测方法。
2. 复杂体系分离分析:开发样品前处理介质,用于环境污染物的分离、富集、捕获及定量分析。
联系邮箱:lidan260001@163.com
主要科研项目:
国家自然科学基金重点项目:痕量循环分析新理论新方法,2022-2026,300万元(参与)
国家自然科学基金地区科学基金项目:适配体调控纳米酶反应共振瑞利散射光谱新方法及其应用,2018-2021,50万元(参与)
广西壮族自治区研究生创新计划项目:二茂铁碳点催化金银铜纳米反应及其用于RRS/SERS双模测定双酚A,2019-2020,1万元(主持)
近期发表科研论文:
(†共同第一作者,*通讯作者)
(1) Song,Y.; Li, D. *; Chen, Z.; Li, C.; Wen, G. *; Jiang, Z*. In SituGenerating Gold Nanosol SERS Detection of Pymetrozine with MolecularlyImprinted Piezoelectric Nanoprobes. Food Biosci. 2026, 78,108600. (SCI二区)
(2) Li, D.;Xia, L.; Li, G*. Homogeneous Hot Spots Plasmonic Microcapsules IntegratedEnrichment-Detection All-in-One for Sensitive and Repeatable Surface-EnhancedRaman Spectroscopy Analysis. Anal. Chem. 2025, 97 (28),15482–15491. (SCI一区)
(3) Li, D.†; Huo, Z. †; Xia, L.; Xiao, X. *; Li, G*. A Portable Array Visualization DeviceIntegrating Sample Preparation and Detection All-in-One for the On-SiteAnalysis of Complex Samples. Anal. Chem. 2024, 96 (14),5368–5374. (SCI一区)
(4) Li,D. †; Zhou, P. †; Hu, Y.; Li, G. *; Xia, L*. Rapid Determination of Illegally Added Sudan Iin Cake by Triphenylamine Functionalized Polyhedral Oligomeric SilsesquioxaneFluorescence Sensor. Spectrochim. Acta. A. Mol. Biomol. Spectrosc. 2022,282, 121673. (SCI二区)
(5) Li,D.; Xia, L. *; Li, G*. Recent Progress on the Applications of Nanozyme inSurface-Enhanced Raman Scattering. Chemosensors 2022, 10(11), 462. (SCI二区)
(6) Li,D. †; Li, C. †; Wang, H.; Li, J.; Zhao, Y.; Jiang, X.; Wen, G.; Liang, A. *; Jiang, Z*.Single-Atom Fe Catalytic Amplification-Gold Nanosol SERS/RRS Aptamer asPlatform for the Quantification of Trace Pollutants. Microchim. Acta 2021,188 (5), 175. (SCI二区)
(7) Liang,A; Shu, Y.; Huang, X.; Li, D.; Zhi, S.; Li, C.; Jiang, Z*. A New Strategyfor the Determination of Trace Hg2+ by 5CB Liquid Crystal RRS Probe Basedon Nanogold Amplification and Galvanic Replacement Reaction. Liquid Crystals2022, 49 (4), 559–565. (SCI二区)
(8) Li,D.; Yuan, X.; Li, C.; Luo, Y.; Jiang, Z*. A Novel Fluorescence AptamerBiosensor for Trace Pb(II) Based on Gold-Doped Carbon Dots and DNAzymeSynergetic Catalytic Amplification. J. Lumin. 2020, 221,117056. (SCI二区)
(9) Li,D.; Yao, D.; Li, C.; Luo, Y.; Liang, A. *; Wen, G.; Jiang, Z*. Nanosol SERSQuantitative Analytical Method: A Review. TrAC Trends Anal. Chem. 2020,127, 115885. (SCI一区)
(10)Li, D.;Li, C.; Liang, A.; Jiang, Z*. A Silver Nanosol SERS Quantitative Method forTrace F− Detection Using the Oxidized Tetramethylbenzidine asMolecular Probes. Microchem. J. 2020, 152, 104439. (SCI二区)
(11)Li, D.;Li, C.; Liang, A. *; Jiang, Z*. SERS and Fluorescence Dual-Mode Sensing TraceHemin and K+ Based on G-Quarplex/Hemin DNAzyme CatalyticAmplification. Sens. Actuators B Chem. 2019, 297, 126799. (SCI一区)
(12)Li, C. †; Qin, Y. †; Li, D. †; Zhang, C.; Liang, A. *; Wen, G.; Lu, Z. *; Jiang,Z*. A Highly Sensitive Enzyme Catalytic SERS Quantitative Analysis Method forEthanol with Victoria Blue B Molecular Probe in the Stable Nanosilver SolSubstrate. Sens. Actuators B Chem. 2018, 255, 3464–3471. (SCI一区)
(13)Liang, A.†; Li, C. †; Li, D. †; Luo, Y.; Wen, G. *; Jiang, Z*. A Facile andSensitive Peptide-Modulating Graphene Oxide Nanoribbon Catalytic NanoplasmonAnalytical Platform for Human Chorionic Gonadotropin. Int. J. Nanomedicine2017, 12, 8725–8734. (SCI二区)