Advanced Functional Materials, Год журнала: 2024, Номер unknown
Опубликована: Окт. 10, 2024
Abstract Simultaneously endowing carbon nanofibers (CNFs) with flexibility, flame‐resistant properties, and high sonoelectric/mechanical‐electric energy conversion efficiency is quite challenging, restricting their wide application to smart fabrics. Herein, a carbon‐based nanofiber prepared by electrospinning subsequent carbonization the formation of Bi 20 TiO 32 (BT), followed in situ growth hydrothermally produced 2 S 3 (B) MoS (M) successively. Compared pure CNF, synthesized carbon/Bi /MoS /Bi (CBT/M/B) fiber exhibited not only enhanced flexibility antiflaming performance but also sensitive ability mechanical power into electricity. Its due its micro/nanostructure interactions between grain boundaries. Importantly, CBT/M/B achieved realization relying on unique human motion provide convert it piezoelectric manner, thus exhibiting satisfactory antibacterial effects. This research provides valuable insights wearable fibers characterized flexible, antiflaming, mechanosensitive functions.
Язык: Английский