
许志刚,男,民革成员,博士,教授
Email: chemxuzg@kust.edu.cn

2019.9至2020.7:清华大学化学系访问学者
2018.9至2018.11:克劳斯塔尔工业大学(德国)访问学者
2007.9至2010.12:中山大学,分析化学,博士学位
2002.9至2005.7:云南师范大学,环境科学,硕士学位
1998.9至2002.7:湖北民族大学,化学,学士学位
讲授本科生《分析化学》、《无机及分析化学》;讲授研究生《高等分析化学》。
主要研究方向
主要从事微萃取技术、分子印迹技术研究,用于环境、食品、生命分析等领域风险标志物的诊断和风险评估,结合统计分析、机器学习和AI等策略,实现标志物的非靶向筛查和靶向分析。
承担科研项目及完成情况
(1)主持国家自然科学基金青年基金:替代模板分子印迹技术及其在水相样品前处理中的应用研究,25万元,2013.01-20.15.12,结题;
(2)主持国家自然科学基金地区基金:基于分子间多重作用力的协同样品前处理技术研究,21205054,46.6万元,2016.01-2019.12,结题;
(3)主持云南省科技厅面上项目:环境雌激素分子印迹吸附萃取搅拌棒的研制及其应用研究,21565018,5万元,2011.10-2014.9,结题;
(4)主持昆明理工大学校级学科方向团队项目:样品前处理方法与技术,14078356,30万元,2015.01-2019.12,结题;
(5)主持云南省科技厅重点计划项目子项目:复杂食品基质中农兽药残留高通量筛查确证技术研究与应用,2018BC005,15万元,项目总经费180万元,2018.01-2020.12,结题;
(6)主持广西区电磁化学功能物质重点实验室开放基金项目:基于环糊精的协同分子印迹样品前处理技术研究,EMFM20182204,4万元,2018.01-2019.12,结题;
(7)主持云南中烟烟草化学重点实验室开放基金项目:烟用手性的分离测香料定技术及其应用研究,2021539200340247,16.8万元,2021.11-2023.10,结题;
(8)主持云南中烟工业有限责任公司科技项目:卷烟感官物质跨模态感知协同效应研究,2025YJ01,54.94万元,2025.4-2028.3,在研。
获奖情况
荣获2011年度昆明理工大学青年教师本科课堂教学一等奖;
荣获2013年度“红云园丁奖”;
荣获2017年度“伍达观先进教师奖”;
荣获2024年度昆明理工大学“优秀教师”;
2024年入选昆明理工大学明德“青年学者”;
荣获2024年度中国分析测试协会“分析测试科学奖二等奖”(排名第一)。
代表性教材,论文和专著
(1) 分离材料与技术方向:
[1] Yuanyuan Wan, Zhigang Xu*, et al. Molecularly imprinted framework materials: synthesis, applications, and perspectives. Coordination Chemistry Reviews, 2026, 547: 217117.
[2] Shufang Xu, Zhigang Xu*, et al. The serial coupling-column strategy, Separation & Purification Reviews, 2025, 54(3): 199-219.
[3] Shufang Xu, Zhigang Xu*, et al. Exposure and risk assessment of phthalates in environmental water using a three-template molecularly imprinted fiber array strategy, Journal of Hazardous Materials, 2024, 461: 132491.
[4] Xiaolan Zhang, Zhigang Xu*, et al. Flexible molecularly imprinted fiber library for the metabolic analysis of bisphenol F and ecological risk evaluation, Journal of Hazardous Materials, 2024, 465: 133300.
[5] Zhimin Liu, Zhigang Xu*, et al. Simultaneous and sensitive detection of methylparaben and its metabolites by using molecularly imprinted solid-phase microextraction fiber array technique, Analytica Chimica Acta, 2024, 1309: 342676.
[6] Qingqing Zhou, Zhigang Xu*, et al. Engineering of dual recognition functional aptamer-molecularly imprinted polymeric solid-phase microextraction for detecting of 17β-estradiol in meat samples, Journal of Chromatography A, 2024, 1730: 465138.
[7] Yi Yang, Zhigang Xu*, et al. Post-imprinting modification of molecularly imprinted polymers for proteins detection: A review, International Journal of Biological Macromolecules, 2023, 253: 127104.
[8] Sitao Wang, Zhigang Xu*, et al. State-of-the-art molecular imprinted colorimetric sensors and their on-site inspecting applications, Journal of Separation Sciences, 2023, 46(12): 2201059.
[9] Qingqing Zhou, Zhigang Xu*, et al. Molecularly imprinting-aptamer techniques and their applications in molecular recognition, Biosensors-Basel, 2022, 12(8): 576.
[10] Shufang Xu, Zhigang Xu*, et al. Paper-based molecular-imprinting technology and its application, Biosensors-Basel, 2022, 12(8): 595.
[11] Yu Tian, Zhigang Xu*, et al. Fe3O4@SiO2@VAN nanoadsorbent followed by GC-MS for the determination of polycyclic aromatic hydrocarbons at ultra-trace levels in environmental water samples, Nanomaterials, 2022, 12(17): 2921.
[12] Zhimin Liu, Zhigang Xu*, et al, Tao Lin, Hongcheng Liu. A review on molecularly imprinted polymers preparation by computational simulation-aided methods, Polymers, 2021, 13(16): 2657.
[13] Zhimin Liu, Zhigang Xu*, et al. Supramolecular imprinted polymeric stir bar sorptive extraction followed by high-performance liquid chromatography for endocrine disruptor compounds analysis, Microchemical Journal, 2020, 158: 105163.
[14] Dan Wang, Zhigang Xu*, et al. Molecularly imprinted polymer-based fiber array extraction of eight estrogens from environmental water samples prior to high-performance liquid chromatography analysis, Microchemical Journal, 2020, 159: 105376.
[15] Dan Wang, Zhigang Xu*, et al. Multitemplate molecularly imprinted polymeric solid-phase microextraction fiber coupled with HPLC for endocrine disruptor analysis in water samples, Microchemical Journal, 2020, 155: 104802.
[16] Yuanchen Liu, Zhigang Xu*, et al. Dummy-template molecularly imprinted micro-solid-phase extraction coupled with high-performance liquid chromatography for bisphenol A determination in environmental water samples, Microchemical Journal, 2019, 145: 337-344.
(2)环境分析与生态风险评价方向:
[1] Sitao Wang, Zhigang Xu*, et al. Triple-hydrogen-bond based molecularly imprinted polymer for specific recognition and detection of tetracycline antibiotics in environmental water samples, Microchemical Journal, 2025, 215: 114249
[2] Sitao Wang, Zhigang Xu*, et al. Magnetic hypercrosslinked polymer microspheres for the detection, spatial distribution, source identification and potential risks assessment of five polycyclic aromatic hydrocarbons in city river of plateau lake, Southwest China, Journal of Hazardous Materials, 2024, 476: 135026.
[3] Yunli Duan, Zhigang Xu*, et al. A multi-site recognition molecularly imprinted solid-phase microextraction fiber for selective enrichment of three cross-class environmental endocrine disruptors, Journal of Materials Chemistry B, 2023, 11(5): 1020-1028.
[4] Qingqing Zhou, Zhigang Xu*, et al. A molecularly imprinted fiber array solid-phase microextraction strategy for simultaneous detection of multiple estrogens, Journal of Materials Chemistry B, 2023, 11(22): 4991-4999.
[5] Zhimin Liu, Zhigang Xu*, et al. β-cyclodextrin-based supramolecular imprinted fiber array for highly selective detection of parabens, International Journal of Molecular Sciences, 2022, 23(18): 10753.
[6] Yu Tian, Zhigang Xu*, et al. Magnetic solid phase extraction based on Fe3O4@SiO2@CTS nano adsorbent for the sensitive detection of trace polychlorinated biphenyls in environmental water samples, Microchemical Journal, 2022, 172: 106947.
[7] Yuanchen Liu, Zhigang Xu*, et al. Ultra-durable, multi-template molecularly imprinted polymers for ultrasensitive monitoring and multicomponent quantification of trace sulfa antibiotics, Journal of Materials Chemistry B, 2021, 9(14): 3192-3199.
[8] Yujian Liu, Zhigang Xu*, et al. Chiral molecularly imprinted polymeric stir bar sorptive extraction for naproxen enantiomer detection in PPCPs, Journal of Hazardous Materials, 2020, 392: 122251.
[9] Yuanchen Liu, Zhigang Xu*, et al. Supramolecularly imprinted polymeric solid phase microextraction coatings for synergetic recognition nitrophenols and bisphenol A, Journal of Hazardous Materials, 2019, 368: 358-364.
[10] Yuanchen Liu, Zhigang Xu *, et al. β-cyclodextrin molecularly imprinted solid-phase microextraction coatings for selective recognition of polychlorophenols in water samples, Analytical and Bioanalytical Chemistry, 2018, 410(2): 509-519.
(3)食品与手性分析方向:
[1] Yangzhou Xie, Zhigang Xu*, et al. Machine learning combined with tandem column technology for food and tobacco analysis and discrimination based on the biomarker of L-lactic acid, Journal of Food Composition and Analysis, 2025, 146: 107972.
[2] Wei Jiang, Zhigang Xu*, et al. Thermal migration and release of 16 characteristic flavor compounds in tobaccos analyzed by GC-MS and GC-MS/MS, Journal of Separation Science, 2025, 48(6): e70195.
[3] Xiaoxi Si, Zhigang Xu*, et al. Enantiomeric separation of four pairs of alkaloids by using a C18 column tandem polysaccharide-based chiral column, Reviews in Analytical Chemistry, 2024, 43: 20230074.
[4] Yangzhou Xie, Zhigang Xu*, et al. Analysis of seven terpenoids by HS-SPME coupled with GC-MS for the identification and classification of different teas, Current Analytical Chemistry, 2024, 20(9): 629-636.
[5] Yi Yang, Zhigang Xu*, et al. Dual-chromatographic column tandem technique for optimizing separation and determination of vitamin B3, Food Analytical Methods, 2023, 16(9-10): 1468-1476.
[6] Kexi Ye, Zhigang Xu*, et al. Advances in molecular imprinting technology for the extraction and detection of quercetin in plants, Polymers, 2023, 15(9): 2107.
[7] Dan Wang, Zhigang Xu*, et al. Generic imprinted fiber array strategy for high-throughput and ultrasensitive simultaneous determination of multiple neonicotinoids, Food Chemistry, 2022, 382: 132407.
[8] Yu Tian, Zhigang Xu*, et al. Botanical discrimination and classification of Mentha plants applying two-chiral column tandem GC-MS analysis of eight menthol enantiomers, Food Research International, 2022, 162: 112035.
[9] Yunli Duan, Zhigang Xu*, et al. Sensitive determination of pyrethroid insecticide residues in tea using a molecularly imprinted fiber array based on homemade solid-phase microextraction coatings, Microchemical Journal, 2022, 182: 107897.
[10] Dan Wang, Zhigang Xu*, et al. Molecular simulation-aided preparation of molecularly imprinted polymeric solid-phase microextraction coatings for kojic acid detection in wheat starch and flour samples, Food Analytical Methods, 2021, 14(10): 2076-2087.