The Rubber and Plastic Mold Team of ZZU Marches on Flexible Sensing Materials
Publisher: Yang Ming   From: ZZU   Publish Date: 2020.08.31   Read Count: 64 
Recently, the Rubber and Plastic Mold Team of ZZU has made a series of progress in the design and application of flexible sensing materials, and successively published 3 research results in the internationally renowned journal Nano Energy (IF = 16.602) as the first unit of completion. The research result “Stretchable Conductive Nonwoven Fabrics with Self-Cleaning Capability for Tunable Wearable Strain Sensor” was published in Nano Energy (2019, 66: 104143). Master student Li Qianming was the first author, associate professor Liu Hu, Prof. Liu Chuntai, and researcher Pan Caofeng from Beijing Institute of Nanoenergy and Nanosystems,CAS was the co-corresponding author. The result “Ultra-Stretchable, Durable and Conductive Hydrogel with Hybrid Double Network as High Performance Strain Sensor and Stretchable Triboelectric Nanogenerator” was published in Nano Energy (2020.76:105035). PhD student Sun Hongling was the first author and Prof. Dai Kun was the corresponding author. The result “Ultra-Stretchable Triboelectric Nanogenerator as High-Sensitive and Self-Powered Electronic Skins for Energy Harvesting and Tactile Sensing” was published in Nano Energy (2020. 70:104546). Master student Zhou Kangkang was the first author, Prof. Dai Kun and CAS Researcher Pan Caofeng were the corresponding authors.

The research above was funded by the National Key Research and Development Program, the “111” Talent Introducing Program, the National Natural Science Foundation of China, the Henan University Science and Technology Innovation Talent Program, and the China Postdoctoral Science Foundation. 郑州大学版权所有,禁止非法转载!2020-09-25 07:38:32
Compatible for Internet Explorer 8+Firefox 18+Safari 5+Chrome 22+Opera 12+ etc. Browser