糖心视频


Nature-inspired ceramic fiber aerogels advance thermal insulation

Nature-inspired ceramic fiber aerogels offer breakthrough in thermal insulation
Lightweight and compression properties of highly oriented SiC@SiO2 nanofiber aerogel. Credit: Liu Cui

Recently, a research group led by Prof. Wang Zhenyang and Zhang Shudong from the Hefei Institutes of 糖心视频ical Science of the Chinese Academy of Sciences, developed a new type of ceramic fiber aerogel, SiC@SiO鈧, featuring highly anisotropic thermal conductivity and extreme thermal stability through directional bio-inspired design.

The work was in Advanced Science.

In nature, many biological structures鈥攕uch as wood's vascular systems or the layered architecture of silkworm cocoons鈥攄emonstrate directional heat management thanks to their well-organized internal structures.

Inspired by these natural designs, the team applied a bio-inspired fabrication strategy to create aerogels with similarly ordered architecture. They used electrospinning and freeze-drying techniques to fabricate a highly ordered structure.

Movie of compression release of the A-SiC@SiO2-FAs under liquid nitrogen environment. Credit: Advanced Science (2025). DOI: 10.1002/advs.202416740

First, thermally stable SiC nanofibers with excellent chemical stability were synthesized as basic units, followed by the construction of an amorphous SiO鈧 shell on their surfaces. This SiO鈧 coating acts as a phonon barrier, enabling both intra-layered alignment and inter-layered stacking to form a highly oriented SiC@SiO鈧 ceramic fiber aerogel.

The anisotropic aerogel demonstrates remarkable properties: Ultralow cross-plane thermal conductivity is as low as 0.018 W/m路K, and an anisotropy coefficient is as high as 5.08, which is significantly better than that of similar materials.

In addition to , the shows excellent mechanical resilience, with radial elastic deformation over 60% and axial specific modulus reaching 5.72 kN路m/kg.

  • Nature-inspired ceramic fiber aerogels offer breakthrough in thermal insulation
    Credit: Liu Cui
  • Nature-inspired ceramic fiber aerogels offer breakthrough in thermal insulation
    Anisotropic thermal conductivity and extreme thermal stability of highly oriented SiC@SiO2 nanofiber aerogel. Credit: Liu Cui

Most impressively, it maintains structural and functional stability across an ultra-wide temperature range from -196掳C to 1300掳C, making it a promising candidate for applications in aerospace, energy systems, and other where advanced thermal insulation is critical.

This work offers a new pathway for developing ultralight, high-performance insulation materials for demanding applications, according to the team.

More information: Zheng Zhang et al, Highly Oriented SiC@SiO2 Ceramic Fiber Aerogels with Good Anisotropy of the Thermal Conductivity and High鈥怲emperature Resistance, Advanced Science (2025).

Journal information: Advanced Science

Citation: Nature-inspired ceramic fiber aerogels advance thermal insulation (2025, March 13) retrieved 27 October 2025 from /news/2025-03-nature-ceramic-fiber-aerogels-advance.html
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