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A Review of High-Temperature Resistant Silica Aerogels: Structural Evolution and Thermal Stability Optimization

Zhenyu Zhu, Wanlin Zhang, Hongyan Huang, Wenjing Li, Hao Ling, Hao Zhang

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Abstract

Silica aerogels exhibit exceptionally low thermal conductivity and a low apparent density, as they are unique porous nanomaterials. They are extensively used in thermal insulation in terms of aerospace and building construction, adsorption processes for environmental applications, concentrating solar power systems, and so on. However, the degradation of the silica aerogel's nanoporous structure at high temperatures seriously restricts their practical applications. Through a comprehensive review of the high-temperature structural evolution and sintering mechanisms of silica aerogels, this paper introduces two strategies to enhance their thermal stability, including heteroatom doping and surface heterogeneous structure construction. In particular, atomic layer deposition (ALD) of ultra-thin coatings on silica aerogel holds significant potential for enhancing thermal stability, while preserving its ultra-low thermal conductivity.

Topics & Concepts

Thermal stabilityMaterials scienceThermalChemical engineeringStructural stabilityNanotechnologyThermodynamicsStructural engineeringPhysicsEngineeringAerogels and thermal insulationBuilding materials and conservationMesoporous Materials and Catalysis
A Review of High-Temperature Resistant Silica Aerogels: Structural Evolution and Thermal Stability Optimization | Litcius