一、基础信息
个人简介:袁文雯,女,汉族,1997年01月生,江苏徐州人,群众,博士研究生学历,讲师。主要从事微纳制造与传感、半导体光学器件和微流控设计等生医信息材料交叉领域的研究。以一作发表发表十余篇SCI和EI论文,主持国家自然科学基金等多项科研项目。
(一)个人基础信息
性别:袁文雯
出生年月:1997.01
职务:讲师
博硕导:无
电子邮箱:wwyuan@shmtu.edu.cn
(二)教育经历
2021-03至2024-11,英国利物浦大学,电气与电子工程专业,哲学博士
2019-10至2020-11,英国华威大学,通信与信息工程专业,理学硕士
2015-09至2019-06,江南大学,物联网工程专业,工学学士
二、科学研究
(一)研究领域及科研团队
研究领域:微纳制造与传感、半导体器件、光学检测
(二)科研项目
国家自然科学基金青年项目,3D微纳打印纳米纸基仿生SERS芯片的设计及其在乳腺癌外泌体筛查中的应用,2026-2028,主持
国家卫生健康委能力建设和继续教育中心,慢病管理方向研究课题,2025-2026,主持
(三)代表性论文成果
1.期刊论文
(1)Wenwen Yuan; Hang Yuan; Keran Jiao; et al., Facile Microembossing Process for Microchannel Fabrication for Nanocellulose-Paper-Based Microfluidics, ACS Applied Materials & Interfaces, 2023, 15: 6420-6430 (唯一第一作者, JCR Q1)
(2) Wenwen Yuan; Hang Yuan; Sixuan Duan; et al., Microembossing: A Convenient Process for Fabricating Microchannels on Nanocellulose Paper-Based Microfluidics, Journal of Visualized Experiments, 2023, (200) (唯一第一作者 JCR Q3)
(3)Wenwen Yuan; Jiao, Keran; Yuan, Hang; et al., Metal-Organic Frameworks/Heterojunction Structures for Surface-Enhanced Raman Scattering with Enhanced Sensitivity and Tailorability, ACS Applied Materials & Interfaces, 2024, 16(20): 26374- 26385 (唯一第一作者, JCR Q1)
(4)Wenwen Yuan; Yuan, Hang; Li, Ruibing; et al., A SERS Nanocellulose-Paper-Based Analytical Device for Ultrasensitive Detection of Alzheimer's Disease, Analytica Chimica Acta, 2024, 1301(342447) (唯一第一作者, JCR Q1) [Cover paper]
(5)Miao Lu#; Wenwen Yuan#; Ruiqi Yong; et al., Facile Laser Cutting Process for Nanocellulose-Paper-Based Microfluidic Microchannel Fabrication, IEEE Sensors Journal, 2025, 25(4): 1-1 (共同第一作者, JCR Q1)
(6)Wenwen Yuan; Keran Jiao; Ruiqi Yong; et al., MOF-assisted Nanocellulose Paper-Based Platform for Multiple Surface-Enhanced Raman Scattering Detection, Analytical Chemistry, 2025, Vol 97/Issue 35 (唯一第一作者, JCR Q1) [Cover paper]
(7) Hang Yuan#; Ruiqi Yong#; WenwenYuan#; et al., Centrifugation-assisted Lateral Flow Assay Platform: Enhancing Bioassay Sensitivity with Active Flow Control, Microsystems & Nanoengineering, 2025, 11, Article number: 101 (共同第一作者, JCR Q1,Nature sub-journal)
2. 会议论文
(1) Wenwen Yuan; Longxin Zhang; et al, (2022) Micropattern Embossing: A Facile Process for Microchannel Fabrication on Nanocellulose-Paper-Based Microfluidics, 26th International Conference on Miniaturized Systems for Chemistry and Life Sciences (µTAS 2022), Hangzhou China, Oct. 23-27, 2022 [Oral Presentation] (唯一第一作者)
(2) Wenwen Yuan; Hang Yuan; et al., Highly-integrated SERS-Based Immunoassay NanoPADs for Early Diagnosis of Alzheimer’s Disease, 45th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC 23), Sydney, Australia, Jul. 24-27, 2023. [Poster] (唯一第一作者)
(3) Ruiqi Yong#; Wenwen Yuan#; et al., Nanocellulose-Paper-Based Analytical Devices with MOFs/Heterojunction Structures for Multiplex SERS Detection, 46th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC 24), Orlando, USA, July 15-19, 2024. [Poster] (共同第一作者)
(4) Wenwen Yuan; Hang Yuan; et al., Transfer Printing Assisted Fabrication of a Cicada Wing Inspired Nanopaper SERS Platform, 2025 International Conference on Advanced Mechatronic Systems (2025 ICAMechsS), Xi'an, China, Sep. 19-21, 2025. [Oral Presentation] (唯一第一作者)
三、教学信息
(一)授课信息
主讲本科生课程:海洋物联网技术与应用、电子综合设计等