個人簡介:葉萃,,研究員,。2018年6月獲西南大學博士學位,,2025年1月結束美國加州理工學院博士后研究工作,加入上海交通大學公共衛(wèi)生學院,,任學科帶頭人組建“柔性傳感與主動健康”實驗室,。研究聚焦于柔性電子傳感領域,迄今為止,,在相關領域期刊發(fā)表SCI論文50余篇,,谷歌學術總被引近3300余次,H因子28,。其中以第一/或通訊作者發(fā)表學術論文24篇,,包括Nature Nanotechnology(IF:38.1,被Nature和Nature Nanotechnology期刊高亮報道,,文章在線至今總下載量超過3.3萬次),,Nature Materials(IF:37.2,被IMechE專題報道),Chemical Society Reviews(IF:40.4)等,。主持國家自然科學基金1項,,上海市白玉蘭人才-浦江項目1項。基于自主研發(fā)的可穿戴汗液感知設備,,參與了美國癌癥協(xié)會(ACS),、美國衛(wèi)生與公眾服務部(NIH)及美國國家科學基金會(NSF)等多個基金項目,總金額累積超600萬美元,。授權國際專利1項,,中國發(fā)明專利4項?;诳纱┐骱挂号院蔂柮杀O(jiān)測指環(huán)這一關鍵技術,,成立了初創(chuàng)公司Persperity Health (https://persperityhealth.com/),并已獲得百萬美元級融資,,作為Inventor兼任Scientific Advisor,。此外,獲得全球Electronics 2024 Travel Award,,以召集人等身份在國內(nèi)外學術會議上做學術報告25余次,,擔任The Innovation和Advanced Powder Materials期刊青年編委會成員,擔任Discover Chemistry客座編輯,,擔任Nature communications,,Science Advances,Advanced Materials等50多個國際學術期刊獨立審稿人,。
研究方向:穿戴式傳感、無創(chuàng)汗液監(jiān)測,、電化學分析,、微流控芯片、數(shù)智化健康監(jiān)測與管理
研究成果:詳見https://scholar.google.com/citations?user=0wTVXGgAAAAJ&hl=en
1) Ye, C.; Wang, M. Q.; Min, J. H.; Tay, R. Y. J.; Lukas, H.; Sempionatto, J. R.; Li, J. H.; Xu, C. H.; Gao, W. A Wearable Aptamer Nanobiosensor for Non-invasive Female Hormone Monitoring, Nat. Nanotechnol., 2024, 19, 330-337. (IF=38.1, ESI highly Cited Paper)
Highlighted as "Wearable biosensor measures fertility hormones in sweat", Nature, 2023, 10.1038/d41586-023-03812-x.
Highlighted as "Wireless real-time monitoring of oestradiol in sweat", Nat. Nanotechnol., 2024, 10.1038/s41565-024-01611-7.
2) Wang, M. Q. +; Ye, C.+; Yang, Y. R.; Mukasa, D.; Wang, C. R.; Xu, C. H.; Min, J. H.; Solomon, S. A.; Tu, J. B.; Tang, S. S.; Shen, G. F.; McCune, J. S.; Hsiai, T. K.; Li, Z. P.; Gao, W. Printable Molecule-selective Core-Shell Nanoparticles for Wearable and Implantable Sensing, Nat. Mater., (2025). https://doi.org/10.1038/s41563-024-02096-4. (IF=37.2)
News features in Caltech News, IMechE, the Engineer
https://www.imeche.org/news/news-article/printed-nanoparticle-sensors-could-enable-personalised-healthcare
https://www.theengineer.co.uk/content/news/wearable-sensor-points-to-personalised-medicine
3) Ye, C.; Lukas, H.; Wang, M. Q.; Lee, Y.; Gao, W. Nucleic Acid-based Wearable and Implantable Electrochemical Sensors, Chem. Soc. Rev., 2024, 53, 7960. (IF=40.4)
4) Wang, M. Q.; Yang, Y. R.; Min, J. H.; Song, Y.; Tu, J. B.; Mukasa, D.; Ye, C.; Changhao Xu, C. H.; Heflin, N.; McCune, J. S.; Hsiai, T. K.; Li, Z. P.; Gao, W. A wearable electrochemical biosensor for the monitoring of metabolites and nutrients, Nat. Biomed. Eng. 2022, 6, 1225–1235. (IF=27.7)
5) Torrente-Rodr?′guez, R. M.; Tu, J. B.; Yang, Y. R.; Min, J. H.; Wang, M. Q.; Song, Y.; Yu, Y.; Xu, C. H.; Ye, C.; IsHak, W. W.; Gao, W. Investigation of Cortisol Dynamics in Human Sweat Using a Graphene-Based Wireless mHealth System. Matter 2020, 2, 1–17. (IF=17.3)
6) Mukasa, D.; Wang, M. Q.; Min, J. H.; Yang, Y. R.; Solomon, S. A.; Han, H.; Ye, C.; Gao, W. A Computationally Assisted Approach for Designing Wearable Biosensors Toward Non-invasive Personalized Molecular Analysis, Adv. Mater. 2023, 35, 2212161. (IF=27.4)
7) Wang, M. Q+.; Ye, C.+; Liu, H.; Xu, M. W.; Bao, S. J. General Synthesis of Nano-Metal Phosphides Embedded N-doped Porous Carbon Nanofibers for Enhanced Hydrogen Evolution at All pH Values. Angew. Chem. Int. Edit. 2018, 57, 1-6. (IF=16.1, ESI highly Cited Paper)
8) Bi, L. L.; Yang, Z. L.; Chen, L. J.; Wu, Z.; Ye, C*. Compressible AgNWs/Ti3C2TX MXene Aerogel-based Highly Sensitive Piezoresistive Pressure Sensor as Versatile Electronic Skins, J. Mater. Chem. A, 2020, 8, 20030. (IF=10.8)
9) Wang, M. Q.+; Ye, C.+; Wang, M.; Li, T. H.; Yu, Y. N.; Bao S. J. Synthesis of M (Fe3C, Co, Ni)-Porous Carbon Frameworks as High-Efficient ORR Catalysts. Energy Storage Mater. 2018, 11, 112–117. (IF=18.9)
10) Ye, C.; Wang, M. Q.; Zhong, X.; Chen, S. H.; Chai, Y. Q.; Yuan, R. Highly Sensitive Electrochemiluminescenc Assay of Acetylcholinesterase Activity Based on Dual Biomarkers Using Pd–Au Nanowires as Immobilization Platform, Biosens. Bioelectron. 2016, 79, 34?40. (IF=10.7)
11) Yang, Z. L.; Wang, W. W.; Bi, L. L.; Chen, L. J.; Wang, G. X.; Chen, G. N.; Ye, C. *; Pan, J. Wearable Electronics for Heating and Sensing based on a Multifunctional PET/Silver Nanowire/PDMS Yarn, Nanoscale, 2020, 12, 16562-16569.
12) Ye, C.; Wang, M. Q.; Bao S. J.; Ye, C. H., Micropore-Boosted Layered Double Hydroxide Catalysts: EIS Analysis in Structure and Activity for Effective Oxygen Evolution Reactions, ACS Appl. Mater. Interfaces 2019, 11, 30887?30893.
13) Ye, C.; Wang, M. Q.; Luo, H. Q.; Li, N. B. Label-Free Photoelectrochemical “Off-On” Platform Coupled with G-wire-Enhanced Strategy for Highly Sensitive MicroRNA Sensing in Cancer Cells, Anal. Chem. 2017, 89, 11697?11702.
14) Ye, C.; Wang, M. Q.; Li, L. J.; Luo, H. Q.; Li, N. B. Fabrication of Pt/Cu3(PO4)2 Ultrathin Nanosheet Heterostructure for Photoelectrochemical MicroRNA Sensing Using Novel G-wire-Enhanced Strategy, Nanoscale 2017, 9, 7526?7532.
15) Ye, C.; Wang, M. Q.; Gao, Z. F.; Zhang, Y.; Lei, J. L.; Luo, H. Q.; Li, N. B. Ligating Dopamine as Signal Trigger onto the Substrate via Metal-Catalyst-Free Click Chemistry for “Signal-on” Photoelectrochemical Sensing of Ultralow MicroRNA Levels, Anal. Chem. 2016, 88, 11444?11449.
