Research Progress on Modification of Aerogels by Chemical Vapor Deposition

Aerogels are three-dimensional nanomaterials with low thermal conductivity, low density, high specific surface area, and high porosity. They have demonstrated remarkable performance advantages in thermal insulation, catalysis, and adsorption in recent years. However, their inherent brittleness and weak skeletal structure limit their applications. In order to improve the resilience and expand the capabilities of aerogels, it is essential to optimize their intrinsic properties. The chemical vapor deposition (CVD) method offers a number of advantages, including fine control, high selectivity, and the ability to modify the aerogel in both the outer surface and the inner layer. This approach allows for reinforcement of the gel skeleton while achieving functionalization. This paper reviews the research progress of aerogel modification by the CVD method with a focus on hydrophobic modification, structural improvement, antioxidant modification, catalytic modification, etc. In light of the current demand for aerogel applications and the difficulties encountered in modifying aerogels, this review proposes future research directions for aerogel modification by CVD.