研究方向

　　分析化学、样品前处理

教育背景

　　2013.9—2017.6 青岛理工大学，环境科学专业，获得理学学士学位；
　　2018.9—2024.6 厦门大学，环境科学专业，硕博连读，获得理学博士学位。

代表性研究成果

　　[1] Jiangyi Wu, Lingxin Zhen, Xiaojia Huang*. Fabrication and evaluation of a molecular-imprinted-polymer functionalized electrode for selective electric field-assisted solid-phase microextraction of phytohormones. Talanta 270 (2024) 125572.
　　[2] Jiangyi Wu, Siyu Luo, Xiaojia Huang*. Fabrication of monolith-based electrodes for simultaneous solid-phase microextraction of phenylurea and sulfonylurea herbicides assisted by electric field. Chem. Eng. J. 455 (2023) 140786.
　　[3] Jiangyi Wu, Xiaojia Huang*. Electric field-reinforced solid phase microextraction based on anion-exchange monolith for efficient entrapment of anions in aqueous and wine samples. J. Chromatogr. A 1676 (2022) 463291.
　　[4] Jiangyi Wu, Youfang Huang, Xiaojia Huang*. Efficient trap of polar aromatic amines in environmental waters by electroenhanced solid phase microextraction based on porous monolith doped with carboxylic carbon nanotubes. Sep. Purif. Technol. 282 (2022) 120067.
　　[5] Jiangyi Wu, Hexun Chen, Xiaojia Huang*. Monolith/aminated graphene oxide composite-based electric field-assisted solid phase microextraction for efficient capture of phenoxycarboxylic acids herbicides in environmental waters. J. Chromatogr. A 1653 (2021) 462407.
　　[6] Jiangyi Wu, Ruichen Yang, Jun Liu, Xiaojia Huang*. Easy fabrication of aminated graphene oxide functionalized magnetic nanocomposite for efficient preconcentration of phenolic acids prior to HPLC determination: Application in tea-derived wines. Talanta 228 (2021) 122246.
　　[7] Jiangyi Wu, Guoqing Lu, Xiaojia Huang*. Fabrication of monolith-based solid-phase microextraction for effective extraction of total chromium in milk and tea samples prior to HPLC/DAD analysis. Microchem. J. 159 (2020) 105549.
　　[8] Jiangyi Wu, Yanyun Li, Weicheng Li, Zhenbin Gong, Xiaojia Huang*. Preparation of a novel monolith-based adsorbent for solid-phase microextraction of sulfonamides in complex samples prior to HPLC-MS/MS analysis. Anal. Chim. Acta 1118 (2020) 7-19.
　　[9] Jiangyi Wu, Meng Mei, Xiaojia Huang*. Fabrication of boron-rich multiple monolithic fibers for the solid-phase microextraction of carbamate pesticide residues in complex samples. J. Sep. Sci. 42 (2019) 878-887.
　　[10] Weicheng Li, Jiangyi Wu, Xiaojia Huang*. Facile fabrication of functional groups-rich sorbent for the efficient enrichment of aromatic N- and S-containing compounds in environmental waters. Anal. Chim. Acta 1113 (2020) 36-42.（共同一作）
　　[11] Ruichen Yang, Jiangyi Wu, Guoqing Lu, Xiaojia Huang*. Efficient capture of carbamate and triazole pesticides in environmental waters by functional groups-rich monolithic fibers prior to chromatographic quantification. Microchem. J. 171 (2021) 106833.（共同一作）
　　[12] Lingxin Zheng, Jiangyi Wu, Jingjuan Wang, Yuanfei Wu, Xiaojia Huang*. Preparation of microelectrode based on molecularly imprinted monolith using ionic liquids as functional monomers for specific separation and enrichment of phenolic acids. Sep. Purif. Technol. 353 (2025) 128548.
　　[13] Hexun Chen, Jiangyi Wu, Qingbiao Xiong, Xiaojing Li, Xiaojia Huang*. Efficient capture of fluoroquinolones in urine and milk samples with multi-monolith fibers solid phase microextraction based on hybrid metal-organic framework/monolith material. Microchem. J. 189 (2023) 108575.
　　[14] Siyu Luo, Jiangyi Wu, Xiaojia Huang*. Molecularly imprinted monolith-based portable in-tip microextraction device for field specific extraction of triazine herbicides in aqueous samples followed by chromatographic quantification. J. Chromatogr. A 1689 (2023) 463743.
　　[15] Siyu Luo, Jiangyi Wu, Xiaojia Huang*. On-site selective capture of nitrophenols in waters based on tri-channel in-tip microextraction apparatus using molecularly imprinted monolith as adsorbent. Microchem. J. 183 (2022) 107996.
　　[16] Xiaochong Song, Jiangyi Wu, Jinling Pang, Yuanfei Wu, Xiaojia Huang*. Task specific monolith for magnetic field-reinforced in-tube solid phase microextraction of mercury species in waters prior to online HPLC quantification. J. Hazard. Mater. 411 (2021) 125141.
　　[17] Lei Chen, Jiangyi Wu, Xiaojia Huang*. Multiple monolithic fibers modified with a molecularly imprinted polymer for solid phase microextraction of sulfonylurea herbicides based on boron-nitrogen interaction. Microchim. Acta 186 (2019) 470.
　　[18] Miao Pei, XiaoLai Shi, Jiangyi Wu, Xiaojia Huang*. Graphene reinforced multiple monolithic fiber solid-phase microextraction of phenoxyacetic acid herbicides in complex samples. Talanta 191 (2019) 257-264.
　　[19] 黄晓佳，吴江毅，基于掺杂石墨烯多孔聚合物的电增强固相微萃取装置，国家发明专利号：ZL 2021 1 0175852.4.