(1) 2021-07 至 2023-08, 新葡的京集团35222vip，新葡的京集团35222vip，食品科学，博士后

(2) 2016-08 至 2021-06, 中国农业大学, 食品科学与营养工程学院，食品科学, 硕博连读

(3) 2020-01 至 2021-02, 英国利兹大学, 食品科学与营养学院，食品科学, 联合培养

1.  国家十四五重点研发计划“个性化膳食数字化设计与智能制造关键技术研究与产业化示范”项目子课题（2023YFF1104202），食物品种及成分的智能识别技术研究（主持）

2.  国家十四五重点研发计划“茶叶智能化加工及茶制品应用关键技术研究与示范”项目子课题（2022YFD2101104），高品质茶提取物加工智能化控制关键技术研发（主持）

3.  国家博士后创新人才支持计划（BX20220201），茶叶中不同天然活性成分调控睡眠的分子机制及协同增效研究（主持）

4.  上海市“超级博士后”奖励计划（2021224），茶氨酸、咖啡碱和茶多酚协同影响睡眠的分子机制及构效关系研究（主持）

5.  中国博士后科学基金面上项目（2021M702140），基于茶多糖/茶褐素与氟相互作用调控氟消化吸收代谢的机制研究（主持）

6.  茶树生物学与资源利用国家重点实验室开放基金（SKLTOF20230107），青砖茶关键活性成分调控昼夜节律紊乱的分子机制研究（主持）

7.  新葡的京集团35222vip“新进青年教师启动计划”课题（24X010500154），茶叶干预调控昼夜节律紊乱的关键活性成分挖掘及机制研究（主持）

8.  国家自然科学基金面上项目（32172223），藏茶茶褐素与牛乳蛋白的相互作用及其增强骨骼肌功能的机制研究（参与）

9.  国家自然科学基金面上项目（31871842），玉米醇溶蛋白/藻酸丙二醇酯/小分子乳化剂三元复合胶体颗粒稳定β-胡萝卜素Pickering乳液机理研究（参与）

10.  国家自然科学基金面上项目（31972073），油凝胶调控功能因子溶解度、稳定性和释放的机制研究（参与）

11.  国家自然科学基金青年项目（31701648），乳状液填充蛋白质凝胶微结构设计与不同极性复合食品功能因子传递研究（参与）

12.  “十三五”国家重点研发计划项目“茶叶产品质量安全控制技术及健康功能评价应用示范”（2018YFC1604400）（参与）

13.  “十三五”国家重点研发计划项目“现代饮料高速灌装加工技术及成套装备开发”（2018YFD0400900）（参与）

1. Wei, Y., # Wen, Y., # Huang, X., Ma, P., Wang, L., Pan, Y., Lv, Y., Wang, H., Zhang, L., Wang, K., Yang, X., & Wei, X. * (2024). The dawn of intelligent technologies in tea industry. Trends in Food Science & Technology, 144, 104337.
2. Wei, Y., # Pang, Y., # Ma, P., Miao, S., Xu, J., Wei, K., Wang, Y., & Wei, X.* (2023). Green preparation, safety control and intelligent processing of high-quality tea extract. Critical Reviews in Food Science and Nutrition, doi: 10.1080/10408398.2023.2239348.
3. Wei, Y., Xu, J., Miao, S., Wei, K., Peng, L., Wang, Y., Wei, X.* (2022) Recent advances in the utilization of tea active ingredients to regulate sleep through neuroendocrine pathway, immune system and intestinal microbiota, Critical reviews in Food science and nutrition, doi: 10.1080/10408398.2022.
4. Wei, Y., Shao, J., Pang, Y., Wen, C., Wei, K., Peng, L., Wang, Y.,* & Wei, X.* (2024). Antidiabetic Potential of Tea and Its Active Compounds: From Molecular Mechanism to Clinical Evidence, Journal of Agricultural and Food Chemistry, doi: 10.1021/acs.jafc.3c08492.
5. Wei, Y., Wang, C., Liu, X., Mackie, A., Dai, L., Mao, L., Yuan, F., & Gao, Y.* (2022). Co-encapsulation of curcumin and β-carotene in Pickering emulsions stabilized by complex nanoparticles: Effects of microfluidization and thermal treatment. Food Hydrocolloids, 122, 107064.
6. Wei, Y., Liu, Z., Guo, A., Mackie, A., Zhang, L., Liao, W., Mao, L., Yuan, F., & Gao, Y.* (2021). Zein Colloidal Particles and Cellulose Nanocrystals Synergistic Stabilization of Pickering Emulsions for Delivery of beta-Carotene. Journal of Agricultural and Food Chemistry, 69(41), 12278–12294.
7. Wei, Y., Zhang, L., Liao, W., Mao, L., Yuan, F., Mackie, A., & Gao, Y.* (2021). Enhanced stability and controlled gastrointestinal digestion of β-carotene loaded Pickering emulsions with particle–particle complex interfaces. Food & Function, 12(21), 10842–10861.
8. Wei, Y., Zhou, D., Yang, S., Dai, L., Zhang, L., Mao, L., Yuan, F., Gao, Y.,* & Mackie, A. (2021). Development of β-carotene loaded oil-in-water emulsions using mixed biopolymer-particle-surfactant interfaces. Food & Function, 12(7), 3246–3265.
9. Wei, Y., Guo, A., Liu, Z., Zhang, L., Liao, W., Liu, J., Mao, L., Yuan, F., Mackie, A., & Gao, Y.* (2021). Development of curcumin loaded core-shell zein microparticles stabilized by cellulose nanocrystals and whey protein microgels through interparticle interactions. Food & Function, 12(15), 6936–6949.
10. Wei, Y., Guo, A., Liu, Z., Mao, L., Yuan, F., Gao, Y.,* & Mackie, A. (2021). Structural design of zein-cellulose nanocrystals core – shell microparticles for delivery of curcumin. Food Chemistry, 357(17), 129849.
11. Wei, Y., Zhou, D., Mackie, A., Yang, S., Dai, L., Zhang, L., Mao, L., Yuan, F., & Gao, Y.* (2021). Stability, Interfacial Structure, and Gastrointestinal Digestion of β-Carotene-Loaded Pickering Emulsions Co-stabilized by Particles, a Biopolymer, and a Surfactant. Journal of Agricultural and Food Chemistry, 69(5), 1619–1636.
12. Wei, Y., Wang, C., Liu, X., Liao, W., Zhang, L., Chen, S., Mao, L., Yuan, F., & Gao, Y.* (2021). Effects of microfluidization and thermal treatment on the characterization and digestion of curcumin loaded protein–polysaccharide–tea saponin complex nanoparticles. Food & Function, 12(3), 1192–1206.
13. Wei, Y., Tong, Z., Dai, L., Ma, P., Zhang, M., Liu, J., Mao, L., Yuan, F., & Gao, Y.* (2020). Novel colloidal particles and natural small molecular surfactants co-stabilized Pickering emulsions with hierarchical interfacial structure: Enhanced stability and controllable lipolysis. Journal of Colloid and Interface Science, 563, 291–307.
14. Wei, Y., Li, C., Zhang, L., Dai, L., Yang, S., Liu, J., Mao, L., Yuan, F., Mackie, A., & Gao, Y.* (2020). Influence of calcium ions on the stability, microstructure and in vitro digestion fate of zein-propylene glycol alginate-tea saponin ternary complex particles for the delivery of resveratrol. Food Hydrocolloids, 106(17), 105886.
15. Wei, Y., Li, C., Dai, L., Zhang, L., Liu, J., Mao, L., Yuan, F., Mackie, A., & Gao, Y.* (2020). The construction of resveratrol-loaded protein-polysaccharide-tea saponin complex nanoparticles for controlling physicochemical stability and: In vitro digestion. Food & Function, 11(11), 9973–9983.
16. Wei, Y., Tong, Z., Dai, L., Wang, D., Lv, P., Liu, J., Mao, L., Yuan, F., & Gao, Y.* (2020). Influence of interfacial compositions on the microstructure, physiochemical stability, lipid digestion and β-carotene bioaccessibility of Pickering emulsions. Food Hydrocolloids, 104(17), 105738.
17. Wei, Y., Wang, C., Liu, X., Mackie, A., Zhang, L., Liu, J., Mao, L., Yuan, F., & Gao, Y.* (2020). Impact of microfluidization and thermal treatment on the structure, stability and in vitro digestion of curcumin loaded zein-propylene glycol alginate complex nanoparticles. Food Research International, 138(PB), 109817.
18. Wei, Y., Yang, S., Zhang, L., Dai, L., Tai, K., Liu, J., Mao, L., Yuan, F., Gao, Y.* & Mackie, A. (2020). Fabrication, characterization and in vitro digestion of food grade complex nanoparticles for co-delivery of resveratrol and coenzyme Q10. Food Hydrocolloids, 105(17), 105791.
19. Wei, Y., Zhan, X., Dai, L., Zhang, L., Mao, L., Yuan, F., & Gao, Y.* (2021). Formation mechanism and environmental stability of whey protein isolate-zein core-shell complex nanoparticles using the pH-shifting method. LWT, 139, 110605.
20. Wei, Y., Yu, Z., Lin, K., Yang, S., Tai, K., Liu, J., Mao, L., Yuan, F., & Gao, Y.* (2020). Fabrication, Physicochemical Stability, and Microstructure of Coenzyme Q10 Pickering Emulsions Stabilized by Resveratrol-Loaded Composite Nanoparticles. Journal of Agricultural and Food Chemistry, 68(5), 1405–1418.
21. Wei, Y., Sun, C., Dai, L., Mao, L., Yuan, F., & Gao, Y.* (2019). Novel Bilayer Emulsions Costabilized by Zein Colloidal Particles and Propylene Glycol Alginate, Part 1: Fabrication and Characterization. Journal of Agricultural and Food Chemistry, 67(4), 1197–1208.
22. Wei, Y., Sun, C., Dai, L., Mao, L., Yuan, F., & Gao, Y.* (2019). Novel Bilayer Emulsions Costabilized by Zein Colloidal Particles and Propylene Glycol Alginate. 2. Influence of Environmental Stresses on Stability and Rheological Properties. Journal of Agricultural and Food Chemistry, 67(4), 1209–1221.
23. Wei, Y., Yu, Z., Lin, K., Sun, C., Dai, L., Yang, S., Gao, Y.* (2019). Fabrication and characterization of resveratrol loaded zein-propylene glycol alginate-rhamnolipid composite nanoparticles: Physicochemical stability, formation mechanism and in vitro digestion. Food Hydrocolloids, 95, 336–348.
24. Wei, Y., Zhang, L., Yu, Z., Yang, S., Dai, L., Gao, Y.* (2019). Enhanced stability, structural characterization and gastrointestinal digestion of coenzyme Q10 loaded ternary nanoparticles. Food Hydrocolloids, 94, 333–344.
25. Wei, Y., Sun, C., Dai, L., Zhan, X., & Gao, Y.* (2018). Structure, physicochemical stability and in vitro simulated gastrointestinal digestion properties of β-carotene loaded zein-propylene glycol alginate composite nanoparticles fabricated by emulsification-evaporation method. Food Hydrocolloids, 81, 149–158.
26. Pang, Y., # Wei, Y., # Wei, K., Huang, R., Peng, L., Zhu, Y., & Wei, X. (2021). ACS Food Sci. Technol, doi: 10.1021/acsfoodscitech.3c00630.
27. Miao, S.,# Wei, Y.,# Pan, Y., Wang, Y., Wei, X.* (2023) Detection methods, migration patterns and health effects of pesticide residues in tea. Comprehensive Reviews in Food Science and Food Safety, doi: 10.1111/1541-4337.13167.
28. Xu, J.,# Wei, Y.,# Huang, Y., Wei, X.* (2023) Regulatory effects and molecular mechanisms of tea and its active compounds on nonalcoholic fatty liver disease. Journal of Agricultural and Food Chemistry, doi: 10.1021/acs.jafc.2c07702.
29. Xu, J.,# Wei, Y.,# Li, F., Weng X., Wei, X.* (2023) Regulation of fungal community and the quality formation and safety control of Pu-erh tea. Comprehensive Reviews in Food Science and Food Safety, doi: 10.1111/1541-4337.13051.
30. Miao, S.,# Wei, Y.,# Chen, J., Wei, X.* (2022) Extraction methods, physiological activities and high value applications of tea residue and its active components: A review. Critical Reviews in Food Science and Nutrition, doi: 10.1080/10408398.2022.2099343.
31. Xu, J.,# Wei, Y.,# Huang, Y., Weng, X., Wei, X.* (2022) Current understanding and future perspectives on the extraction, structures and regulation of muscle function of tea pigments, Critical Reviews in Food Science and Nutrition, doi: 10.1080/10408398.2022.2093327.
32. Huang, Y.,# Wei, Y.,# Xu, J., Wei, X.* (2022) A comprehensive review on the prevention and regulation of Alzheimer’s disease by tea and its active ingredients. Critical Reviews in Food Science and Nutrition, doi: 10.1080/10408398.2022.2081128.
33. Shao, J.,# Wei, Y.,# Wei, X.* (2022) A comprehensive review on bioavailability, safety and antidepressant potential of natural bioactive components from tea. Food Research International, 158: 111540-111557.

申请/授权专利：

1. 一种基于青砖茶多糖的氟生物吸附剂的制备方法及其应用.发明专利，申请号：CN202410350554.8
2. 基于计算机视觉的速溶茶粉茶色素种类及含量检测方法.发明专利，申请号：CN202410135962.1
3. 一种可调图像采集装置.实用新型专利，申请号：CN202323508605.5
4. 一种促进骨骼肌再生与修复的膳食营养补充剂及其应用.发明专利，申请号：CN 202311581984.2
5. 基于乳清分离蛋白和茶褐素的复合凝聚物及其制备方法与应用. 发明专利，申请号：CN202311185128.5
6. 陈化青砖茶提取物冻干粉在制备预防和/或改善结肠炎产品中的应用. 发明专利，申请号：CN202311181720.8
7. 茶水提取物冻干粉在制备预防和/或改善昼夜节律紊乱引发的肝肠代谢紊乱产品中的应用. 发明专利，申请号：CN202311158808.8
8. 一种青砖茶多糖的提取纯化方法及获得的青砖茶多糖. 发明专利，申请号：CN202311185130.2
9. 一种同时检测Cd²⁺和Hg²⁺的电化学适配体传感器及其制备方法和应用. 发明专利，公开号：CN116794136A
10. 氧化石墨烯基核酸适配体传感器的构建及检测伏马菌素B1的方法和应用. 发明专利，公开号：CN113866146A