Litcius/Paper detail

Confined Gelation Synthesis of Flexible Barium Aluminate Nanofibers as a High-Performance Refractory Material

Hualei Liu, Xiaodan Huo, Peili Zhao, Ruixiang Xu, Xinxin Zhang, Jianyong Yu, Yi‐Tao Liu, Bin Ding

2024ACS Nano11 citationsDOI

Abstract

Barium aluminate (BAO) ceramics are highly sought after as a kind of high-temperature refractory material due to their exceptional thermal stability in both vacuum and oxygen atmospheres, but their inherent brittleness results in rapid hardening, imposing a negative impact on the overall construction performance. Here, we report a strategy to synthesize flexible BAO nanofibers with a needle-like structure through confined-gelation electrospinning followed by in situ mineralization. The confined gelation among the colloidal particles promotes the formation of precursor nanofibers with high continuity and a large aspect ratio. The resulting flexible BAO nanofiber membranes are bendable, stretchable, and can even be woven, exhibiting a softness (12 mN) that is lower than that of tissue paper (27 mN). Additionally, they are capable of withstanding hundreds to thousands of continuous buckling and bending at 50% deformation without tearing. More importantly, the low emissivity of the flexible BAO nanofiber membranes ensures excellent thermal insulation at 1300 °C while preserving structural integrity and performance stability. In this sense, our strategy can be easily scaled up to produce flexible yet tough oxide ceramic membranes for a wider range of applications.

Topics & Concepts

Materials scienceNanofiberCeramicBrittlenessComposite materialMembraneThermal stabilityNanocompositeElectrospinningNanotechnologyPolymerChemical engineeringEngineeringGeneticsBiologyElectrospun Nanofibers in Biomedical ApplicationsAerogels and thermal insulationAdvanced Sensor and Energy Harvesting Materials