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Liquid metal-integrated ultra-elastic conductive microfibers from microfluidics for wearable electronics 被引量:10
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作者 Yunru Yu Jiahui Guo +2 位作者 Biao Ma Dagan Zhang Yuanjin Zhao 《Science Bulletin》 SCIE EI CAS CSCD 2020年第20期1752-1759,M0004,共9页
Liquid metal(LM) has shown potential values in different areas. Attempts to implement LM are tending to develop new functions and make it versatile to improve its performance for practical applications.Here, we presen... Liquid metal(LM) has shown potential values in different areas. Attempts to implement LM are tending to develop new functions and make it versatile to improve its performance for practical applications.Here, we present an unprecedented LM-integrated ultra-elastic microfiber with distinctive features for wearable electronics. The microfiber with a polyurethane shell and an LM core was continuously generated by using a sequenced microfluidic spinning and injection method. Due to the precise fluid manipulation of microfluidics, the resultant microfiber could be tailored with tunable morphologies and responsive conductivities. We have demonstrated that the microfiber could act as dynamic force sensor and motion indicator when it was embedded into elastic films. In addition, the values of the LMintegrated ultra-elastic microfiber on energy conversions such as electro-magnetic or electro-thermal conversions have also been realized. These features indicate that LM-integrated microfiber will open up new frontiers in LM-integrated materials and the wearable electronics field. 展开更多
关键词 Liquid metal MICROFIBER MICROFLUIDICS Wearable electronics SPINNING
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