Directional fabricating of flexible and compressible cellulose nanofibril composite aerogel with excellent thermal insulation, flame-retardancy and radiative cooling for efficient thermal management

Abstract: In order to reduce the thermal discomfort and fire accidents caused by overheating of electronics and high temperature of buildings, high-performance thermal insulation and fire-resistant materials are urgently desirable. Cellulose nanofiber aerogel derived from regenerative resources holds wide promise in the field of thermal insulation, but its inherent flammability, poor mechanical strength and water resistance make it face great challenges in practical application. Herein, a lightweight, porous, anisotropi… Show more