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Zhejiang University made a new type of graphene film material: good flexibility, strong heat conduction, solving world problems
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- Time of issue:2016-05-03
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(Summary description)Through clever design, Professor Gao Chao of the Department of Polymer Science and Technology at Zhejiang University has developed a new type of graphene-assembled film: it is currently the most macroscopic material with the highest thermal conductivity, and it is also ultra-flexible, and can be repeatedly folded 6,000 times and subjected to bending 100,000 times.
Zhejiang University made a new type of graphene film material: good flexibility, strong heat conduction, solving world problems
Zhejiang University made a new type of graphene film material: good flexibility, strong heat conduction, solving world problems
Zhejiang University made a new type of graphene film material: good flexibility, strong heat conduction, solving world problems
(Summary description)Through clever design, Professor Gao Chao of the Department of Polymer Science and Technology at Zhejiang University has developed a new type of graphene-assembled film: it is currently the most macroscopic material with the highest thermal conductivity, and it is also ultra-flexible, and can be repeatedly folded 6,000 times and subjected to bending 100,000 times.
- Categories:Industry news
- Author:
- Origin:
- Time of issue:2016-05-03
- Views:1
Information
Through clever design, Professor Gao Chao of the Department of Polymer Science and Technology at Zhejiang University has developed a new type of graphene-assembled film: it is currently the most macroscopic material with the highest thermal conductivity, and it is also ultra-flexible, and can be repeatedly folded 6,000 times and subjected to bending 100,000 times. This progress has solved the global problem that macroscopic materials can't take into account both high thermal conductivity and high flexibility, and is expected to be widely used in high-efficiency thermal management, new generation of flexible electronic devices, and aerospace.
The Nanomolecular Polymer Research Group of Zhejiang University, led by Prof. Gao Chao, winner of the National Outstanding Youth Fund, currently has 1 professor, 1 assistant, 3 postdoctoral fellows, 11 doctoral students, 5 master's students, and a joint venture. Develop a postdoctoral fellow. There are 3 laboratories for graphene, new energy materials and polymer chemistry, and 1 joint research center for "Zhejiang University - Cang Gu Shang Xi".
China's Carbon Valley Technology Group and Carbon Valley Shangxi Materials Technology Co., Ltd.
The team has long devoted itself to the large-scale preparation of single-layer graphene oxide and its macroscopic assembly studies, discovered the liquid crystallinity of graphene oxide, invented the graphene fiber, graphene non-woven fabric, graphene continuous assembly film and lightest material graphite. Aerogels Four pure graphene macroscopic materials (abbreviated as F4) developed low-cost, high-quality single-layer graphene oxide, multi-functional graphene composite fibers, graphene high-efficiency electric heating cloths, graphene supercapacitors, graphene-aluminum The six core technologies, such as ion batteries and graphene nanofiltration membranes, have broad prospects for industrialization, and some of them have already achieved production and pilot tests.
Gao Chao, born in January 1973, Tujia, Zhejiang University, is a distinguished professor, doctoral tutor, director of polymer science research institute.
He received a bachelor's degree from Hunan University in 1995, a master's degree from 1998, and a Ph.D. from Shanghai Jiaotong University in 2001. After graduating from Ph.D., he stayed in Shanghai Jiao Tong University and taught at the University of Sussex and Bayreuth University in Germany from 2003 to 2006 as visiting scholars and postdoctoral fellows. In 2008, he was introduced to Zhejiang University and was named professor and doctoral tutor.
Researches around graphene chemistry, liquid crystals, and macroscopic assembly, and communications in world's flagship scientific journals such as Nature Communications (3), Advanced Materials, Accounts of Chemical Research, Chemical Reviews, Chemical Society Reviews, Progress in Polymer Science, Materials Today The author and the first author of more than 110 papers, the article was cited by him more than 5700 times, H factor 39.
Co-editor-in-Chief Wiley published an English monograph entitled "Hyperbranched Polymers: Synthesis, Properties, and Applications". He wrote six chapters in English monographs and was granted 23 Chinese invention patents.
Served as Editor-in-Chief of Colloid and Polymer Science, an international journal.
He has been selected or obtained the Ministry of Science and Technology “Young People's Science and Technology Innovation Leading Talent Program” (2014), the National Outstanding Youth Fund (2013), Zhejiang “Qianjiang Talent Plan” (2010), Shanghai “Pujiang Talent Plan” (2007), The Ministry of Education’s “New Century Excellent Talents Program” (2005), the 9th “Fok Ying Tung Fund” (2004), and the “Young Talents of Science and Technology in Shanghai” (2003) and other talent programs won the Zhejiang Youth Science and Technology Award (2013), 1 National Natural Science Second Prize (ranked 3rd), 1st Shanghai Science and Technology Award (ranked 3rd) and national outstanding doctoral dissertation award.
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