个人简介:
陈书文,现任华中科技大学医疗装备科学与研究院副研究员,2020/10-2024/02 在新加坡国立大学Institute for Health Innovation & Technology (iHealthtech)做博士后研究,合作导师Chwee Teck Lim教授,2016-2019,在华中科技大学 武汉国家光电研究中心,攻读博士学位,导师周军教授(含胡彬/段将将教授指导),2013-2016,在中国科学院大学 北京纳米能源与系统研究所,攻读硕士学位,导师曹霞教授(含王中林院士指导),具有材料科学、化学、电子科学与技术、机械工程、生物医学的交叉研究背景。
邮箱:shuwenchen@hust.edu.cn
个人业绩:
近年来,以第一作者和通讯作者(含共同一作和共同通讯)在Nature Reviews Bioengineering,Advanced Materials (IF=29.4),Advanced Energy Materials (IF=27.8), Advanced Functional Materials (IF=19),Nano Energy (IF=17.6)等上发表高水平论文12篇,累计引用超过1052次,部分入选ESI高被引论文。以共同作者身份发表论文23篇,累计引用次数超过1506次,学术影响力H因子为17,在Biomaterials, Bio-Design and Manufacturing、Micro and Nanotechnology in Medicine Conference等国际会议中多次做特邀口头报告或者展示报告。
研究兴趣和学术理想:
基于医工交叉,面向主动健康、人口老龄化和重大疾病(如心血管,糖尿病等)诊疗对轻量化诊断/监护/康复装备的需求,结合可穿戴电子,智能织物、电子皮肤、智能假肢、虚拟现实、人工智能、大数据等现代智能技术,开展柔性生物界面电子与智能医疗传感系统相关的研究工作,解决该领域在材料、传感机制、器件加工与制造,系统集成等方面的科学与技术问题,为解决人类健康、智能生活和生物医疗领域面临的重大挑战贡献自己的绵薄力量。
研究方向:
1.柔性电子材料与微传感器件
基于材料、传感机制、加工制备和系统集成上的创新,开发物理和生物化学传感器件,进行高性能智能化极端监测(如深层生物物理化学信息的无创/低侵入监测,动态场景的脉搏监测等)。涉及1)柔性生物力学传感:应力、压力、杨氏模量等传感;2)柔性生物化学传感器:电化学传感、生物亲和传感、体液\微流体传感;3)柔性生物电传感与刺激:心电、肌电等;4)温度传感等
2.智能监护、诊断或诊疗系统
围绕临床应用场景,开发智能或多功能监护、诊断或诊疗系统,并根据需求开发配套的传感、治疗、能源、分析、通讯等模块,结合现代信息技术如虚拟现实、人工智能、大数据,进行目标疾病的智能识别诊断,最终开发出可穿戴/低入侵监护产品、康复假肢或手套、床上床旁/枕上智能监护产品等。
3.其他柔性生物界面电子器件
根据智能监护、诊断或诊疗系统的需求开发其他柔性生物界面电子,如可穿戴自驱动/能源器件,柔性驱动器件,软机器人等。
即将开展和收尾课题
1.可穿戴超声监护 (已获支持)
2.可穿戴生物电传感(待收尾)
3.低入侵多功能(物理、化学)传感(待收尾)
开放职位:
生命是一场识于缘分、伴于理解、终于同频并相互成就的美妙旅程。欢迎志同道合有材料化学、生物医学、机械电子信息等背景的硕士研究生或本科生联系,并一起为彼此的梦想奋斗。
已发表文章:
2024年
23. Z. Wu#, Z. Qiao#, S. Chen*, S. Fan, Y. Liu, J. Qi & C. T. Lim*. Interstitial fluid-based wearable biosensors for minimally invasive healthcare and biomedical applications. Communications Materials 5 (2024).
2023年
22. S. W. Chen, S. C. Fan, Z. Qiao, J. Y. Lee, C. T. Lim*, Liquid metal Functionalization innovations for biomedical robotics and smart healthcare. Adv. Funct. Mater., 2023
21. S. W. Chen, Z. Qiao, Y. Niu, S. C. Fan, J. Y. Lee, C. T. Lim*, Wearable flexible microfluidic sensing technologies. Nat. Rev. Bioeng., 2023
20. Z. Qiao#, S. W. Chen#, S. C. Fan, Z. Xiong, C. T. Lim*, Epidermal bioelectronics for management of chronic diseases: materials, devices and systems. Adv. Sensor Res., 2023, 2, 2200068
2022年
19. S. W. Chen, S. C. Fan, J. M. Qi, Z. X., Z. Q., Z. X. Wu, J. C. Yeo, C. T. Lim*. Ultrahigh Strain‐Insensitive Integrated Hybrid Electronics Using Highly Stretchable Bilayer Liquid Metal Based Conductor. Adv. Mater. 2022, 2208569.
2021年
18. S. W. Chen, J. M. Qi, S. C. Fan, Z. Qiao, J. C. Yeo*, C. T. Lim*. Flexible wearable sensors for cardiovascular health monitoring. Adv. Healthcare Mater., 2021.
17. Z Xu, X Wan, X Mo, S Lin, S. W. Chen, J Chen, Y Pan, H Zhang, H Jin, J Duan, et al. Electrostatic assembly of laminated transparent piezoelectrets for epidermal and implantable electronics. Nano Energy, 2021, 89, 106450
16. S Lin, S Wang, W Yang, S. W. Chen, Z Xu, X Mo, H Zhou, J Duan, B Hu, etal.Trap-induced dense monocharged perfluorinated electret nanofibers for recyclable multifunctional healthcare mask. Acs Nano,2021, 15 (3), 5486-5494
2020年
15. S.W. Chen, N. Wu, J. J. Duan, Z. S. Xu, Y. Pan, W. B. Li, L. Huang, B. Hu*, J. Zhou*. Hierarchical elastomer tuned self-powered pressure sensor for wearable multifunctional cardiovascular electronics. Nano Energy 2020,2, 104460..
2018年
14. S. W. Chen, N. Wu, L. Ma, S. Lin, F. Yuan, Z. Xu, W. Li, B. Wang, J. Zhou, Noncontact Heartbeat and Respiration Monitoring Based on a Hollow Microstructured Self-Powered Pressure Sensor. ACS Appl. Mater. Inter. 2018.
13. N. Wu #, S.W. Chen#, S. Lin, W. Li, Z. Xu, F. Yuan, L. Huang, B. Hu, J. Zhou, Theoretical study and structural optimization of a flexible piezoelectret-based pressure sensor. J. Mater. Chem. A 2018, 6, 5065-5070.
12. S Lin, Y Cheng, X Mo, S.W. Chen, Z Xu, B Zhou, H Zhou, B Hu, J Zhou. Electrospun polytetrafluoroethylene nanofibrous membrane for high-performance self-powered sensors. Nanoscale Research Letters, 2019, 14, 1-9
11. Z Xu, J Duan, W Li, N Wu, Y Pan, S Lin, J Li, F Yuan, S.W. Chen, L Huang, etal. Boosting the efficient energy output of electret nanogenerators by suppressing air breakdown under ambient conditions. ACS Appl. Mater. Inter. 2018,11 (4), 3984-3989
10. Li W. B., Duan J. J., Zhong J. W., S.W. Chen, et al. Flexible THV/COC Piezoelectret Nanogenerator for Wide-Range Pressure Sensing. ACS Appl. Mater. Inter. 2018 10 (35), 29675-29683. (IF=10.383)
2017年
9. Cheng Y. L., Wang C., Zhong J. W., S.W. Chen, et al. Electrospun polyetherimide electret nonwoven for bi-functional smart face mask[J]. Nano Energy, 2017, 34:562-569. (IF=19.069)
8. Li, W.; Zhao, S.; Wu, N.; Zhong, J.; Wang, B.; Lin, S.; Chen, S. W.; Yuan, F.; Jiang, H.; Xiao, Y.; Hu, B.; Zhou, J., Sensitivity-Enhanced Wearable Active Voiceprint Sensor Based on Cellular Polypropylene Piezoelectret. ACS Appl. Mater. Inter. 2017, 9, 23716-23722. (IF=10.383)
7. S. W. Chen, X. Cao, N. Wang, L. Ma, H. R. Zhu, M. Willander, Y. Jie, Z. L. Wang, An Ultrathin Flexible Single-Electrode Triboelectric-Nanogenerator for Mechanical Energy Harvesting and Instantaneous Force Sensing. Adv. Energy Mater. 2017, 7, 1601255.
2016年
6. S. W. Chen,; N. Wang, L. Ma,; T. Li, M. Willander, Y. Jie, X. Cao, Z. L. Wang, Triboelectric Nanogenerator for Sustainable Wastewater Treatment via a Self-Powered Electrochemical Process. Adv. Energy Mater. 2016,6.
5. Zhu H. R., Wang N., Xu Y., Chen S. W., et al. Triboelectric Nanogenerators Based on Melamine and Self-Powered High-Sensitive Sensors for Melamine Detection[J]. Advanced Functional Materials, 2016, 26(18):3029-3035. (IF=19.924)(4th)
2015年
4. S. W. Chen, C. Z. Gao, W. Tang, H. Zhu, Y. Han, Q. W. Jiang, T. Li, X. Cao, Z. L. Wang, Self-powered cleaning of air pollution by wind driven triboelectric nanogenerator. Nano Energy, 2015, 14, 217-225.
3. Zhu H. R., Xu Y., Wang N., Han Y., Chen S. W., et al. Self-powered electrochemical anodic oxidation: A new method for preparation of mesoporous Al2O3 without applying electricity. Nano Research, 2015, 8(11), 3604–3611. (IF=10.269)
2. Han Y, Gao C, Zhu H, Chen S. W., et al. Piezotronic effect enhanced nanowire sensing of H2O2 released by cells[J]. Nano Energy, 2015, 13:405-413. (IF=19.069)
1. Jiang Q. W., Han Y., Tang W., Zhu H. R., Gao C. Z., Chen S. W., M. Willander, Wang Z. L. Self-powered seawater desalination and electrolysis using flowing kinetic energy. Nano Energy, 2015, 15, 266. (IF=19.069)
