Abstract
Breathable Bioelectronics In article number 2107969, Jae Y. Park and co-workers develop hierarchically interactive carbon nanofibers from β-phase rich dehydrofluorinated MXene-poly(1,1-difluoroethylene) electrospun nanofibers via laser-induced carbonization. The β-phase is converted into an sp2-hybridized graphitic structure by cyclization/cross-linking decomposition of hydrogen fluoride and transforms into a conjugated carbon structure during carbonization. The approach generates flexible carbon nanofibers with high carbon yield, conductivity, and stability appropriate for engineering skin-compatible and breathable electrophyological bioelectronics to develop human-machine interfaces.
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