摘要
Electronic skins with distinctive features have attracted remarkable attention from researchers because of their promising applications in flexible electronics.Here,we present novel morphologically conductive hydrogel microfibers with MXene encapsulation by using a multi-injection coflow glass capillary microfluidic chip.The coaxial flows in microchannels together with fast gelation between alginate and calcium ions ensure the formation of hollow straight as well as helical microfibers and guarantee the in situ encapsulation of MXene.The resultant hollow straight and helical MXene hydrogel microfibers were with highly controllable morphologies and package features.Benefiting from the easy manipulation of the microfluidics,the structure compositions and the sizes of MXene hydrogel microfibers could be easily tailored by varying different flow rates.It was demonstrated that these morphologically conductive MXene hydrogel microfibers were with outstanding capabilities of sensitive responses to motion and photothermal stimulations,according to their corresponding resistance changes.Thus,we believe that our morphologically conductive MXene hydrogel microfibers with these excellent features will find important applications in smart flexible electronics especially electronic skins.
出处
《Research》
SCIE
EI
CAS
CSCD
2021年第1期422-431,共10页
研究(英文)
基金
supported by the National Key Research and Development Program of China(2020YFA0908200)
the National Natural Science Foundation of China(52073060 and 61927805)
the Natural Science Foundation of Jiangsu(BE2018707).
