汤胜,博士、副教授、硕士生导师,武汉工程大学“人才培育发展支持计划”青年骨干人才。2006/09−2010/06,湖南师范大学,化学专业,获理学学士学位;2010/09−2015/06,中国科大富豪
大学(中国科大富豪
兰州化学物理研究所),分析化学专业,获理学博士学位,曾获“中国科大富豪
朱李月华优秀博士生奖”。致力于分离分析新材料的制备与应用研究,以“色谱分离”为研究主题,发展新型、高效的色谱分离材料,并应用于食品、环境等样品分析,建立相应的分离分析新方法。作为项目负责人主持国家自然科学基金、湖北省自然科学基金等项目,以第一作者或通讯作者在专业领域的知名期刊上发表SCI论文40余篇,其中,2022年以来,在分析化学领域TOP期刊或中科院一区期刊发表SCI论文20余篇,担任《Chinese Chemical Letters》、《Journal of Analysis and Testing》等期刊青年编委。指导和培养研究生20余名,指导的研究生多人获评国家奖学金、优秀研究生、优秀硕士学位论文等。作为骨干成员获批省级一流本科课、省级课程思政示范课程与教学团队,作为负责人获批校级一流本科课程、校级课程思政示范课程,出版高等学校“十三五规划”教材1部,获得武汉工程大学第九届教学成果奖一等奖。指导本科生以第一作者发表中科院二区以上论文多篇,指导本科生获得全国生命科学竞赛一等奖等国家和省部级学科竞赛奖多项。曾多次获评武汉工程大学“青年岗位能手”、“优秀班主任”、“百佳导师”等荣誉称号。
招生专业及代码:化学(0703);分析化学(070302)
研究方向:色谱分析、环境分析化学
研究室:武汉工程大学流芳校区大化工楼1314实验室
联系方式:[email protected];QQ:469550457
2022年以来发表的中科院二区以上论文:
[1] A new green approach to synthesizing MIP-202@porous silica microspheres for positional isomer/enantiomer/hydrophilic separation, Chinese Chemical Letters 36 (2025) 109985.
[2] Stable ionic liquid/Zr-MOF co-modified silica microspheres: Facile construction strategy and promising chromatographic applications, Separation and Purification Technology 354 (2025) 128718.
[3] Chiral microporous organic network/covalent organic framework/silica composites: Powerful and versatile chromatographic separation materials, Separation and Purification Technology 355 (2025) 129701.
[4] Ingenious design of novel layered double hydroxide/conjugated microporous polymer modified silica gel for diversified chromatographic applications, Separation and Purification Technology 359 (2025) 130667.
[5] Deep eutectic solvent-based ionogel: Innovative potential as a promising chromatographic separation material, Analytica Chimica Acta 1342 (2025) 343673.
[6] Synergistic expression of ZIF-67 and amphiphilic polymer hydrogel in multi-mode liquid chromatographic separation, Separation and Purification Technology 349 (2024) 127827.
[7] Surface molecularly imprinted polymer/covalent organic framework/silica composite material with specific recognition ability and excellent chromatographic performance, Talanta 276 (2024) 126238.
[8] Deep eutectic supramolecular polymers based HPLC stationary phase: Green synthesis strategy and promising application prospects, Analytica Chimica Acta 1330 (2024) 343268.
[9] Innovative development of deep eutectic solvent based supramolecular hydrogel as excellent surface functional material of porous silica gel with favorable chromatographic performance, Microchemical Journal 207 (2024) 112247.
[10] Green synthesis of N‑rich carbon dot‑derived crosslinked covalent organic nanomaterial for multipurpose chromatographic applications, Microchimica Acta 191 (2024) 345.
[11] Metal/covalent organic framework@silica double-layer core-shell composite: A high-performance liquid chromatographic stationary phase, Microchemical Journal 201 (2024) 110517.
[12] Design of smart temperature-sensitive terpolymeric hydrogel for multi-applications in liquid chromatography, Journal of Chromatography A 1722 (2024) 464867.
[13] Exploring the potential applications of amphiphilic carbon dots based nanocomposite hydrogel in liquid chromatographic separations, Analytica Chimica Acta 1299 (2024) 342445.
[14] A facile creation of hydrophilic-lipophilic-balanced covalent organic frameworks with mixed-mode retention mechanisms for multiple applications in liquid chromatography, Microchemical Journal 197 (2024) 109900.
[15] Facile synthesis of a novel polymer/covalent organic framework@silica composite material in deep eutectic solvent for mixed‑mode liquid chromatographic separation, Microchimica Acta 191 (2024) 35.
[16] Ionic liquid/covalent organic framework/silica composite material: Green synthesis and chromatographic evaluation, Analytica Chimica Acta 1283 (2023) 341992.
[17] Chitosan/polyacrylic acid/octadecene double-crosslinked network hydrogel functionalized porous silica microspheres for multimode liquid chromatographic separation, Journal of Chromatography A 1709 (2023) 464390.
[18] Hydrophobic/hydrophilic separation performance evaluation of a mixed-mode ionic liquid embedded stearyl thioglycolate functionalized silica stationary phase, Journal of Chromatography A 1706 (2023) 464279.
[19] Green preparation of composite hydrogel coated hydrophobic long-chain carboxylic acid-bonded silica microspheres for mixed-mode chromatography, Microchemical Journal 193 (2023) 109104.
[20] Preparation and application of a novel imine-linked covalent organic framework@silica composite for reversed-phase and hydrophilic interaction chromatographic separations, Analytica Chimica Acta 1276 (2023) 341635.
[21] Chromatographic separation performance of silica microspheres surface-modified with triazine-containing imine-linked covalent organic frameworks, Talanta 260 (2023) 124589.
[22] Performance evaluation of 2-undecylimidazole/propyl methacrylate bifunctional silica gel for mixed-mode reversed-phase/anion-exchange chromatography, Microchemical Journal 191 (2023) 108768.
[23] Ingenious introduction of aminopropylimidazole to tune the hydrophobic selectivity of dodecyl-bonded stationary phase for environmental organic pollutants, Microchemical Journal 182 (2022) 107933.
[24] Hydrophobic and hydrophilic selectivity of a multifunctional carbonyldiimidazolium/dodecyl modified silica stationary phase, Journal of Chromatography A 1677 (2022) 463300.
[25] Innovative preparation of ureido/dodecyl dual-functionalized silica as a versatile mixed-mode stationary phase for high-resolution chromatographic separations, Journal of Chromatography A 1665 (2022) 462834.
[26] Recent advances of innovative and high-efficiency stationary phases for chromatographic separations, Trends in Analytical Chemistry 153 (2022) 116647.
