Cellulose fibrous aerogels have been fabricated by a facile and aqueous process that disintegrated electrospun cellulose fibers (ECFs) and reassembled via freezing/freeze-drying with significantly improved dry resiliency and spontaneous 89% shape recovery from ca. 70% compressive strain. Owing to the resilient and 200-300 nm wide ECFs, the cellulose fibrous aerogels exhibited excellent dual dry and wet resiliency as well as improved pore accessibility. The fibrous cellular walls interconnect the aerogel pore structure to allow extraordinary liquid absorption capacity up to 373 g/g, accounting for 95% of the theoretical absorption capacity. Both highly dry resilient and absorbent properties of the ECF aerogel are highly advantageous for hydr...
The gas permeability of a porous material is a key property determining the impact of the material i...
Ultra-light (1.7 to 8.1 mg cm-3) and ultra-porous (99.5 to 99.9%) aerogels have been assembled from ...
The cellulose nanofibers of bacterial cellulose aerogel (BCA) are modified only on their surfaces us...
Cellulose fibrous aerogels have been fabricated by a facile and aqueous process that disintegrated e...
Cellulose fibrous aerogels have been fabricated by a facile and aqueous process that disintegrated e...
In the first part of this work a novel type of low-density, sponge-like material for the separation ...
A facile gelation cross-linking approach was devised to fabricate meso- and macroporous cellulose na...
Here, we reported a facile strategy to create superhydrophobic aerogels via freeze-drying of silylat...
Cellulose-based aerogels show great potential as absorbents for oil and chemical spill cleanup due t...
This article presents a simple and environmentally friendly method for the production of flexible, u...
This article presents a simple and environmentally friendly method for the production of flexible, u...
A unique combination of well-established synthesis procedures involving chemical cross-linking, care...
A facile gelation cross-linking approach was devised to fabricate meso- and macroporous cellulose na...
\u3cp\u3eAbstract: In this study, low density and high porosity aerogels were produced through freez...
This work reports hydrophobic and compressible cellulose- silica composite aerogels prepared by free...
The gas permeability of a porous material is a key property determining the impact of the material i...
Ultra-light (1.7 to 8.1 mg cm-3) and ultra-porous (99.5 to 99.9%) aerogels have been assembled from ...
The cellulose nanofibers of bacterial cellulose aerogel (BCA) are modified only on their surfaces us...
Cellulose fibrous aerogels have been fabricated by a facile and aqueous process that disintegrated e...
Cellulose fibrous aerogels have been fabricated by a facile and aqueous process that disintegrated e...
In the first part of this work a novel type of low-density, sponge-like material for the separation ...
A facile gelation cross-linking approach was devised to fabricate meso- and macroporous cellulose na...
Here, we reported a facile strategy to create superhydrophobic aerogels via freeze-drying of silylat...
Cellulose-based aerogels show great potential as absorbents for oil and chemical spill cleanup due t...
This article presents a simple and environmentally friendly method for the production of flexible, u...
This article presents a simple and environmentally friendly method for the production of flexible, u...
A unique combination of well-established synthesis procedures involving chemical cross-linking, care...
A facile gelation cross-linking approach was devised to fabricate meso- and macroporous cellulose na...
\u3cp\u3eAbstract: In this study, low density and high porosity aerogels were produced through freez...
This work reports hydrophobic and compressible cellulose- silica composite aerogels prepared by free...
The gas permeability of a porous material is a key property determining the impact of the material i...
Ultra-light (1.7 to 8.1 mg cm-3) and ultra-porous (99.5 to 99.9%) aerogels have been assembled from ...
The cellulose nanofibers of bacterial cellulose aerogel (BCA) are modified only on their surfaces us...