研究成果

科研项目

1. 中央军委科技委, 柔性 XXX 织物研制,2019-2021

2. 上海市浦江人才,用于辅助帕金森病症康复与治疗的智能服装的开发研究,2019-2021

3. 国家自然科学基金青年基金项目,面向可穿戴设备的导电织物电力耦合机理研究及电力学性能优化,2017-2019

4. 香港理工大学,医疗压力袜研究和加工的分析和结构参数调整,2018年-

5. ok138太阳集团中国官方网站中央高校基本科研业务费专项资金项目,2017-2019

6. ok138太阳集团中国官方网站青年教师启动项目,2016.3-2017.3

7. 纺织面料技术教育部重点实验室开放课题,2016-2017


代表论文

23. Yang, Jiehua; Li, Qiao; Wang, Xi; Di, Ping; Ding, Hao; Bai, Yunfeng; Dong, Weiwei; Zhu, Shigen, Smart wearable monitoring system based on multi-type sensors for motion recognition, Smart Materials and Structures, 2021, 30: 035017

22. Xi Wang, Qiao Li*, Xiaoming Tao,* Sensing mechanism of a carbon nanocomposite-printed fabric as a strain sensor, Composites Part A, 2021, 144: 106350

21. Qiao Li, YuchiWang, Shen Jiang, TingLi, Xin Ding, Xiaoming Tao, XiWang, Investigation into tensile hysteresis of polyurethane-containing textile substrates for coated strain sensors, Materials and Design, 2020, 188: 108451

20. Xi Wang, Bao Yang, Qiao Li, Fei Wang, Xiao-ming Tao, Modeling the stress and resistance relaxation of conductive composites-coated fabric strain sensors, Composites Science and Technology, 2021, 204: 108645

19. Yang Tao, Wang Xi, Yang Qian, Yang Xudong, Li Qiao, Bioinspired Temperature-Sensitive Yarn with Highly Stretchable Capability for Healthcare Applications, Advanced Materials Technologies, 2021, 2001075

18. Li Ting#; Wang Xi#*; Ding Xin;  Li Qiao*; Study on electromechanical property of polypyrrole-coated  strain sensors based on polyurethane and its hybrid covered yarns, Sensors & Actuators: A. Physical, 2020, 306: 111958.

17. Wang Xi; Li Qiao*; Differences in calves' shapes and circumference profiles between Chinese male and females, AATCC Journal of Research, Accepted.

16. Li Ting; Li Qiao*; Fabrication and characterization of polypyrrole/polyurethane/polyamide yarn-based  strain sensor, Journal of Donghua University (Eng. Ed.), 2020, 37(1):24-28.  

15. Yang Qian; Wang Xi*; Ding Xin; Li Qiao*; Fabrication and characterization of wrapped metal yarns-based fabric temperature sensors, Polymers, 2019,11:1549.

14. Q. Li, H. Chen, Z. Y. Ran, L. N. Zhang, R. F. Xiang, X. Wang, X. M. Tao, X. Ding, Full fabric sensing network with large deformation for continuous detection of skin temperature, Smart Materials and Structures, 2018, 27, 105017

13. (Inside cover paper)Q. Li, L. N. Zhang, X. M. Tao, X. Ding, Review of flexible temperature sensing networks for wearable physiological monitoring, Advanced Healthcare Materials, 2017

12. Q. Li, X. Ding, L. N. Zhang, Textile Based Temperature Sensors—Fabrication, Characterization and Applications, MRS Spring Meeting & Exhibit, Phoenix, USA, 2017

11. Q. Li, X. Ding, L. N. Zhang, J. M. Zeng, X. B. Jiang, A Novel fiber-based stretchy sensor, MRS Spring Meeting & Exhibit, Phoenix, USA, 2017

10. Q. Li, X. M. Tao, Flexible and stretchable fabric circuit boards, Nature Conference on Flexible Electronics, Nanjing, China, 2016

9. (Cover paper) Q. Li, X. M. Tao, Three-dimensionally deformable, highly stretchable, permeable, durable and washable fabric circuit boards, Proceedings of the Royal Society A, 2014, 470, 20140472

8. W. Zeng, L. Shu, Q. Li, S. Chen, F. Wang, X. M. Tao, Fiber-based wearable electronics: a review of materials, fabrication, devices, and applications, Advanced Materials, 2014, 26 (31), 5310-5336

7. X. M. Tao, B. Zhu, Q. Li, J. P. Wang, Largely deformable fabric sensor matrix for on-line impact measurement, Journal of Textile Research, 2013, 34 (2), 45-50

6. X. M. Tao, B. Zhu, Q. Li, Fabric sensing technology for in-situ measurement of high-speed impact protection apparel, Innovation and Technology Symposium, Hong Kong, 2013

5. Y. Y. Wang, T. Hua, B. Zhu, Q. Li, W. J. Yi, and X. M. Tao, Novel fabric pressure sensors: design, fabrication, and characterization, Smart Materials and Structures, 2011, 20, 065015

4. Q. Li, X. M. Tao, B. Zhu, Knitted stretchable interconnects for wearable electronics, The Fiber Society 2011 Spring Conference, Hong Kong, 2011

3. L. Shu, T. Hua, Y. Y. Wang, Q. Li, D. D. Feng, X. M. Tao, In-shoe plantar pressure measurement and analysis system based on fabric pressure sensing array, IEEE Transactions on Information Technology in Biomedicine, 2010, 14 (3), 767-775

2. Q. Li, X. M. Tao, A stretchable knitted interconnect for three-dimensional curvilinear surfaces, Textile Research Journal, 2010, 81 (11), 1171-1182

1. Q. Li, X. M. Tao, T. Hua, Interlaced circuits for multidirectional stretchable electronics, MRS Spring Meeting, San Francisco, 2010


专利专著

专利

1. (Granted) X.M. Tao, Q. Li, Y. H. Zhang, S. Y. Lui, C. C. Tse, Medical pressure sock with improved ankle medial pressure and antibacterial function, US10702421B2, 2020

2. 李乔,丁辛,张丽娜,王宇驰,一种印刷式织物基柔性温度传感器,201710183593.3, 2017

3. 李乔,丁辛,张丽娜,王宇驰,陈慧,一种集成温敏纤维的机织结构柔性温度传感器, 201710183089.3,2017

4. 李乔,丁辛,张丽娜,王宇驰,一种针织结构柔性可拉伸温度传感器,201710183594.8,2017

5. 李乔,江小宝,冉紫鸳,丁辛,一种集成纺织基应力应变传感网络的手语识别智能手套,201710814623.6, 2017

6. 李乔,冉紫鸳,丁辛,一种机织结构可拉伸织物电路板及可穿戴设备,201710935668.9,2017

7. 李乔,陈慧,丁辛,一种集成纺织基温度传感网络的智能服装,201710934987.8,2017

8. 丁辛,聂文琪,代兴玉,李乔,胡吉永,杨旭东,一种用编织技术制备绳状超级电容器的方法,2017112409516,2017

9. X. M. Tao, Q. Li, B. Zhu, Stretchable electrical interconnect and method of making same, US20130263351A1, 2013

10. (Granted) X. M. Tao, Y. Y. Wang, T. Hua, B. Zhu, Q. Li, Soft pressure sensing device, US8393229B2, 2013

11. (Granted) X. M. Tao, Q. Li, B. Zhu, 可拉伸电互连件、耦接接口及服装,CN203055484U, 2013

12. 陶肖明,李乔,朱波,可拉伸电互连件和制造方法,CN103366865, 2013

13. X. M. Tao, T. Hua, Y. Y. Wang, Q. Li, Y. K. Chow, Process for manufacturing fabric pressure sensor and tool for manufacturing fabric pressure sensor, US20130269172A1, 2013

14. 陶肖明,王杨勇,华涛,朱波,李乔,柔性压力传感器及柔性压力传感阵列,CN102770742, 2012

15. X. M. Tao, Y. Y. Wang, T. Hua, B. Zhu, Q. Li, Flexible pressure sensor and flexible pressure sensing array, WO2011103808A1, 2011

16. (Granted) 陶肖明,华涛,王杨勇,李乔,周绮君,一种织物型压力传感器的制造方法以及制造,CN102410895B, 2010

17. (Granted) Q. Li, X. Ding, A two-layer fabric switch: ZL200820059691.2, 2008

专著

Q. Li, X. M. Tao, Fabric substrates and interconnectors for three-dimensional surfaces, Chapter of Handbook of Smart Textiles, Edited by X. M. Tao, 2014


学术报道

1.New scientist: Fabric circuits pave the way for wearable tech

2.Science news daily: Fabric circuit boards that can take bending, washing, stretching and bullets fired at them

3. Science magazine: Washable circuits make great bulletproof vests

4. Phys.org: Fabric circuit boards that can take bending, washing, stretching and bullets fired at them 

5. GIZMODO: These Washable Fabric Circuit Boards Can Even Survive Being Shot

6. Wired Science: New fabric circuit board can be worn, washed, stretched and shot

7. 科技日报:新型柔性纺织电路可像布料般裁剪缝制

8. 人民网:新型柔性纺织电路可像布料般裁剪缝制

9. 纺织导报:新型柔性导电织物:让裁缝随心所欲

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