学习和工作经历
2004.09-2008.06, 南开大学化学学院, 获学士学位
2008.09-2013.06, 南开大学化学学院, 获博士学位
2013.06-2015.04, 美国陶氏化学亚太研发中心, Lead Chemist
2015.04-2017.04, 天津科技大学食品科学与工程学院, 讲师
2015.11-2016.11, 科技部社会科技发展司, 挂职
2017.04-至今, 南开大学医学院, 讲师
学术与社会任职
2.天津市创新人才推进计划青年科技优秀人才
3.天津市“131”创新型人才培养工程第三层次
研究方向
1.食品安全检测
2.纳米生物成像
3.癌症诊断治疗
主持科研项目
1.食品化学危害因子非定向筛查样品前处理及全回收技术, 国家重点研发计划子课题, 2018.12-2021.12.
2.新型生物基食品包装制品研发与安全性评价, 国家重点研发计划子课题, 2018.07-2020.12.
3.可激活荧光活体成像黄曲霉毒素体内代谢分布的实时无损研究,国家自然科学基金青年项目, 2019.01-2021.12.
代表性论文与专利
致力于先进食品安全/生命科学分析方法的开发,立足于分析化学、材料科学与食品科学的学科交叉研究理念,发展先进的食品科学与人类健康研究新方法,创造性的将实时纳米成像技术引入食品安全与营养学研究中,从仿生功能化、纳米自组装、多模态成像、诊疗一体化等角度研发创制了多种新型功能纳米传感探针和生物成像体系,应用于食源性疾病的致病机制探究、早期诊断和靶向治疗等,为食品科学与健康相关研究领域开辟了新的方法学。科研成果方面,累计发表SCI论文50篇,其中第一作者23篇(一区15篇,二区 3篇,三区 5篇,IF > 10的3篇,IF > 5的12篇);申请国家发明专利6项。
1. J.-M. Liu; D.-D. Zhang; G.-Z. Fang; S. Wang, Erythrocyte membrane bioinspired near-infrared persistent luminescence nanocarriers for in vivo long-circulating bioimaging and drug delivery. Biomaterials,2018,165:39-47.
2. J.-M. Liu; Y. Hu; Y.-K. Yang; H. Liu; G.-Z. Fang; X. Lu; S. Wang, Emerging functional nanomaterials for the detection of food contaminants. Trends In Food Science & Technology,2018,71:94-106.
3. J.-M. Liu; Y.-Y. Liu; D.-D. Zhang; G.-Z. Fang; S. Wang, Synthesis of GdAlO3:Mn4+,Ge4+@Au core-shell nanoprobes with plasmon-enhanced near-infrared persistent luminescence for in vivo trimodality bioimaging. ACS Applied Materials & Interfaces,2016,8:29939-29949.
4. J.-M. Liu; X.-Z. Wang; C.-Y. Zhao; J.-L. Hao; G.-Z. Fang; S. Wang, Fabrication of porous covalent organic frameworks as selective and advanced adsorbents for the on-line preconcentration of trace elements against the complex sample matrix. Journal of Hazardous Materials,2018,344:220-229.
5. J.-M. Liu; Z.-H. Wang; H. Ma; S. Wang, Probing and quantifying the food-borne pathogens and toxins: From in vitro to in vivo. Journal of Agricultural and Food Chemistry,2018,66:1061-1066.
6. J.-M. Liu; N. Zhao; Z.-H. Wang; S.-W. Lv; C.-Y. Li; S. Wang, In-taken labeling and in vivo tracing foodborne probiotics via DNA-encapsulated persistent luminescence nanoprobe assisted autofluorescence-free bioimaging. Journal of Agricultural and Food Chemistry,2019,67:514-519.
7. C.-Y. Li;# J.-M. Liu;# Z.-H. Wang; S.-W. Lv; N. Zhao; S. Wang, Integration of Fe3O4@UiO-66-NH2@MON core-shell structured adsorbents for specific preconcentration and sensitive determination of aflatoxins against complex sample matrix. Journal of Hazardous Materials,2020,384:121348.
8. Z.-H. Wang;# J.-M. Liu;# C.-Y. Li; D. Wang; H. Lv; S.-W. Lv; N. Zhao; H. Ma; S. Wang, Bacterial biofilm bioinspired persistent luminescence nanoparticles with gut-oriented drug delivery for colorectal cancer imaging and chemotherapy. ACS Applied Materials & Interfaces,2019,11:36409-36419.
9. S.-W. Lv;# J.-M. Liu;# C.-Y. Li; N. Zhao; Z.-H. Wang; S. Wang, A novel and universal metal-organic frameworks sensing platform for selective detection and efficient removal of heavy metal ions. Chemical Engineering Journal,2019,375:122111.
10. J.-M. Liu; Z.-H. Wang; C.-Y. Li; S.-W. Lv; N. Zhao; S. Wang, Construction of molecularly imprinted nanoplatforms with persistent luminescence for the in vitro specific adsorption and in vivo targeted regulation of food-borne biotoxins. New Journal of Chemistry,2019,43:15097-15104.
11. J.-M. Liu; S.-W. Lv; X.-Y. Yuan; H.-L. Liu; S. Wang, Facile construction of magnetic core–shell covalent organic frameworks as efficient solid-phase extraction adsorbents for highly sensitive determination of sulfonamide residues against complex food sample matrices. RSC Advances,2019,9:14247-14253.
12. D.-D. Zhang;# J.-M. Liu;# N. Song; Y.-Y. Liu; M. Dang; G.-Z. Fang; S. Wang, Fabrication of mesoporous La3Ga5GeO14:Cr3+,Zn2+ persistent luminescence nanocarriers with super-long afterglow for bioimaging-guided in vivo drug delivery to the gut. Journal of Materials Chemistry B,2018,6:1479-1488.
13. J.-M. Liu; X.-Y. Yuan; H.-L. Liu; D. Cheng; S. Wang, Fabrication of an activatable hybrid persistent luminescence nanoprobe for background-free bioimaging-guided investigation of food-borne aflatoxin in vivo. RSC Advances,2018,8:28414-28420.
14. J.-M. Liu; J.-L. Hao; X.-Y. Yuan; H.-L. Liu; G.-Z. Fang; S. Wang, Spherical covalent organic frameworks as advanced adsorbents for preconcentration and separation of phenolic endocrine disruptors, followed by high performance liquid chromatography. RSC Advances,2018,8:26880-26887.
15. Y. Liu;# J.-M. Liu;# D. Zhang; K. Ge; P. Wang; H. Liu; G. Fang; S. Wang, Persistent luminescence nanophosphor involved near-infrared optical bioimaging for investigation of foodborne probiotics biodistribution in vivo: A proof-of-concept study. Journal of Agricultural and Food Chemistry,2017,65:8229-8240.
16. J.-M. Liu; S.-Y. Wei; H.-L. Liu; G.-Z. Fang; S. Wang, Preparation and evaluation of core–shell magnetic molecularly imprinted polymers for solid-phase extraction and determination of sterigmatocystin in food. Polymers,2017,9:546.
17. J.-M. Liu; F.-Z. Cao; G.-Z. Fang; S. Wang, Upconversion nanophosphor-involved molecularly imprinted fluorescent polymers for sensitive and specific recognition of sterigmatocystin. Polymers,2017,9:299.
18. J.-M. Liu; C.-C. Liu; G.-Z. Fang; S. Wang, Advanced analytical methods and sample preparation for ion chromatography techniques. RSC Advances,2015,5:58713-58726.
荣誉和奖励
无
联系方式
通讯地址:天津市津南区同砚路38号 南开大学医学院333室 300350