Ultralight Scalable And High Temperatureresilient Ceramic Nanofiber Sponges

Ultralight scalable and high temperature resilient ceramic nanofiber sponges.

Ultralight scalable and high temperatureresilient ceramic nanofiber sponges. Used a blowspinning solution to fabricate tio 2 nanofibers with a mean grain size below 10 nm while simultaneously collecting the nanofibers ejected during blow spinning. Quantitative mechanical testing indicated that the nanofiber sponges exhibit excellent resilience at both room and high temperatures up to 800 c and we also observed mechanical resilience of the ysz nanofiber sponge at even higher temperatures 1300 c. Ultralight and resilient porous nanostructures have been fabricated in various material forms including carbon polymers. Ultralight scalable and high temperature resilient ceramic nanofiber sponges ultralight and resilient porous nanostructures have been fabricated in various material forms including carbon polymers and metals.

Compressive behavior of ceramic nanofiber sponges at room temperature the ceramic nanofiber sponges can be repeatedly compressed to large strains withmarkedrecoverability aftereachcompression asshownin fig 2a fig s6 andmovies1 torevealtheunderlyingmechanism we. And high temperature resilient ceramic nanofiber sponges read more. Wang h 1 2 zhang x 3 wang n 1 li y 3 feng x 3 huang y 2 zhao c 2 liu z 4 fang m 4 ou g 2 5 gao h 6 li x 3 wu h 2. Synthesis and structural characterization of ceramic nanofiber sponges.

Ultralight scalable and high temperature resilient ceramic nanofiber sponges url. Department of materials science.