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Literature DB >> 20166232

Aerogels from unaltered bacterial cellulose: application of scCO2 drying for the preparation of shaped, ultra-lightweight cellulosic aerogels.

Falk Liebner¹, Emmerich Haimer, Martin Wendland, Marie-Alexandra Neouze, Kerstin Schlufter, Peter Miethe, Thomas Heinze, Antje Potthast, Thomas Rosenau.

Abstract

Bacterial cellulose produced by the gram-negative bacterium Gluconacetobacter xylinum was found to be an excellent native starting material for preparing shaped ultra-lightweight cellulose aerogels. The procedure comprises thorough washing and sterilization of the aquogel, quantitative solvent exchange and subsequent drying with supercritical carbon dioxide at 40 degrees C and 100 bar. The average density of the obtained dry cellulose aerogels is only about 8 mg x cm(-3) which is comparable to the most lightweight silica aerogels and distinctly lower than all values for cellulosic aerogels obtained from plant cellulose so far. SEM, ESEM and nitrogen adsorption experiments at 77 K reveal an open-porous network structure that consists of a comparatively high percentage of large mesopores and smaller macropores.

Entities: Chemical

Mesh：

Substances：

Year: 2010 PMID： 20166232 DOI： 10.1002/mabi.200900371

Source DB: PubMed Journal: Macromol Biosci ISSN： 1616-5187 Impact factor: 4.979

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Cited

11 in total

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6. Compressible, Thermally Insulating, and Fire Retardant Aerogels through Self-Assembling Silk Fibroin Biopolymers Inside a Silica Structure-An Approach towards 3D Printing of Aerogels.

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10. Cellulose as an adhesion agent for the synthesis of lignin aerogel with strong mechanical performance, Sound-absorption and thermal Insulation.

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