必赢线路检测3003必赢线路检测3003 刘金水 E-mail:jsliu@sina.com |
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个人简历 学士:(2000年)必赢线路检测3003 硕士:(2003年)必赢线路检测3003 博士:(2010年)南京大学 访学:(2017年)香港浸会大学 职称职位 2003年-现在必赢线路检测3003讲师副教授硕士生导师 主持项目 安徽省自然面上项目:基于碳点材料体系荧光探针的构筑及其性能研究,2017.7-2019.6,项目负责人。 国家重点实验室开放基金项目:多功能碳纳米管材料用于食品污染物的检测,2015.5-2017.5,项目负责人。 国家自然科学基金:可再生型磁性荧光纳米材料的制备及其对环境污染物的检测和分离,2013.1-2015.1,项目负责人。 安徽省教育厅自然科学基金重点项目:纳米复合木材防腐剂的合成及性能研究,2011.1-2013.12,项目负责人。 必赢线路检测3003博士启动基金:葫芦脲[7]与染料作用的光谱研究及应用,2010.9-2012.12,项目负责人。 研究领域 荧光探针的制备及应用 吸附材料的合成及应用 讲授课程 物理化学 综合化学实验 基础化学实验 胶体界面化学 个人获奖情况 2016年获必赢线路检测3003青年教师讲课大赛二等奖 2016年获必赢线路检测3003必赢线路检测3003青年教师讲课大赛一等奖 2009年获南京大学研究生优秀奖学金 2009年获南京大学介观化学教育部重点实验室论文优秀奖 所指导的研究生获奖及荣誉称号 刘国宁(2015届)获国家奖学金,品学兼优毕业生荣誉称号,现东南大学在读博士。 发表论文 (1) Liu, J.*; Wu, F.; Xie, A.; Liu, C.; Bao, H., Preparation of Nonconjugated Fluorescent Polymer Nanoparticles for Use as a Fluorescent Probe for Detection of 2,4,6-Trinitrophenol. Anal. Bioanal. Chem. 2020,412(5), 1235-1242. (2) Liu, J.*; Bao, H.; Liu, C.; Wu, F.; Gao, F.*, “Turn-on” Fluorescence Determination of Β-Glucosidase Activity Using Fluorescent Polymer Nanoparticles Formed from Polyethylenimine Cross-Linked with Hydroquinone. ACS Appl. Polym. Mater. 2019,1(11), 3057-3063. (3) Tai, D.; Liu, C.;Liu, J.*, Facile Synthesis of Fluorescent Carbon Dots from Shrimp Shells and Using the Carbon Dots to Detect Chromium(Vi). Spectrosc. Lett. 2019,52(3-4), 194-199. (4) Liu, J.*; Liu, C.; Zhou, Z., A Turn-on Fluorescent Sulfide Probe Prepared from Carbon Dots and Mno2 Nanosheets. Microchim. Acta 2019,186(5), 281. (5) Liu, J.*; Wang, L.; Bao, H., A Novel Fluorescent Probe for Ascorbic Acid Based on Seed-Mediated Growth of Silver Nanoparticles Quenching of Carbon Dots Fluorescence. Anal. Bioanal. Chem. 2019,411(4), 877-883. (6) Liu, J.*; Bao, H.; Ma, D.-L.*; Leung, C.-H., Silver Nanoclusters Functionalized with Ce(III) Ions Are a Viable “Turn-on-Off” Fluorescent Probe for Sulfide. Microchim. Acta 2018,186(1), 16. (7) Wang, L.;Liu, J.*; Zhou, Z.; Xu, M.; Wang, B., Convenient Fluorescence Detection of Cr(Iii) in Aqueous Solution Based on the Gold Nanoparticle Mediated Release of the Acridine Orange Probe. Anal. Methods 2017,9(11), 1786-1791. (8) Liu, J.*; Zhou, Z.; Wang, L.; Xu, M., Using a 1,8-Diamino Naphthalene–Copper (Ii) System as a Turn-on Fluorescence Probe for Detecting Sudan I. Spectrosc. Lett. 2017,50(8), 411-416. (9) Liu, J.*; Xu, M.; Wang, B.; Zhou, Z.; Wang, L., Fluorescence Sensor for Detecting Protamines Based on Competitive Interactions of Polyacrylic Acid Modified with Sodium 4-Amino-1-Naphthalenesulfonate with Protamines and Aminated Graphene Oxide. RSC Adv. 2017,7(3), 1432-1438. (10) Liu, J.*; Wang, B.; Xu, M.; Wang, L.; Zhou, Z., Preparation and Use of Cu Nanoclusters as Fluorescent Probes to Determine Au(Iii) Ions. J. Lumin. 2017,185, 258-262. (11) Liu, J.; Vellaisamy, K.; Yang, G.; Leung, C.-H.*; Ma, D.-L.*, Luminescent Turn-on Detection of Hg(Ii) Via the Quenching of an Iridium(Iii) Complex by Hg(II)-Mediated Silver Nanoparticles. Sci. Rep. 2017,7(1). (12) Liu, J.; Dong, Z.-Z.; Yang, C.; Li, G.; Wu, C.; Lee, F.-W.; Leung, C.-H.; Ma, D.-L.*, Turn-on Luminescent Probe for Hydrogen Peroxide Sensing and Imaging in Living Cells Based on an Iridium(Iii) Complex–Silver Nanoparticle Platform. Sci. Rep. 2017,7(1). (13) Liu, J.*; Liu, W.; Xu, M.; Wang, B.; Zhou, Z.; Wang, L., Sensitive Detection of Au(III) Using Regenerative Rhodamine B–Functionalized Chitosan Nanoparticles. Sensors Actuat. B: Chem. 2016,233, 361-368. (14) Liu, J.*; Liu, W.; Wang, Y.; Xu, M.; Wang, B., A Novel Reusable Nanocomposite Adsorbent, Xanthated Fe 3 O 4 -Chitosan Grafted onto Graphene Oxide, for Removing Cu(II) from Aqueous Solutions. Appl. Surf. Sci. 2016,367, 327-334. (15) Liu, J.*; Liu, W.; Ji, Q.; Wang, B.; Xu, M., Ultrasensitive Detection of Sulfide Ions through Interactions between Sulfide Ions and Au(Iii) Quenching the Fluorescence of Chitosan Microspheres Functionalized with Rhodamine B and Modified with Au(III). RSC Adv. 2016,6(45), 38820-38826. (16) Liu, J.*; Liu, G.; Liu, W.; Wang, Y.; Xu, M.; Wang, B., Turn-on Fluorometric Β-Carotene Assay Based on Competitive Host-Guest Interaction between Rhodamine 6g and Β-Carotene with a Graphene Oxide Functionalized with a Β-Cyclodextrin-Modified Polyethyleneimine.Microchim. Acta 2016,183(3), 1161-1168. (17) Tai, D.;Liu, J.*, A Simple and Sensitive Turn-on Fluorescence Probe for Detection of Cetyltrimethylammonium Bromide in Aqueous Samples. Luminescence 2015,30(3), 358-361. (18) Liu, J.*; Liu, G.; Liu, W.; Wang, Y., Turn-on Fluorescence Sensor for the Detection of Heparin Based on Rhodamine B-Modified Polyethyleneimine–Graphene Oxide Complex. Biosens. Bioelectron.2015,64, 300-305. (19) Liu, J.*; Zang, L.; Wang, Y.; Liu, G., Preparation of Acridine Orange-Doped Silica Nanoparticles for Ph Measurement. J. Lumin. 2014,147, 155-158. (20) Liu, J.*; Liu, G.; Zang, L.; Liu, W., Calcein-Functionalized Fe3o4@Sio2 Nanoparticles as a Reusable Fluorescent Nanoprobe for Copper(Ii) Ion. Microchim. Acta 2014,182(3-4), 547-555. (21) Liu, J.*; Liu, G.; Liu, W., Preparation of Water-Soluble Β-Cyclodextrin/Poly(Acrylic Acid)/Graphene Oxide Nanocomposites as New Adsorbents to Remove Cationic Dyes from Aqueous Solutions. Chem. Eng. J. 2014,257, 299-308. (22) Liu, J.*; Ma, S.; Zang, L., Preparation and Characterization of Ammonium-Functionalized Silica Nanoparticle as a New Adsorbent to Remove Methyl Orange from Aqueous Solution.Appl. Surf. Sci. 2013,265, 393-398. (23) Liu, J.; Du, X.*; Zhang, X., Enzyme-Inspired Controlled Release of Cucurbit[7]Uril Nanovalves by Using Magnetic Mesoporous Silica. Chem. - Eur. J. 2011,17(3), 810-815. (24) Liu, J.; Du, X.*, Fast Removal of Aqueous Hg(II) with Quaternary Ammonium-Functionalized Magnetic Mesoporous Silica and Silica Regeneration. J. Mater. Chem. 2011,21(19), 6981. (25) Liu, J.; Du, X.*, Ph- and Competitor-Driven Nanovalves of Cucurbit[7]Uril Pseudorotaxanes Based on Mesoporous Silica Supports for Controlled Release. J. Mater. Chem. 2010,20(18), 3642. (26) Liu, J.; Jiang, N.; Ma, J.*; Du, X.*, Insight into Unusual Downfield Nmr Shifts in the Inclusion Complex of Acridine Orange with Cucurbit[7]Uril. Eur. J. Org. Chem. 2009,4931-4938. |