A Stiff, Tough, and Thermally Insulating Air- and Ice-Templated Plant-Based Foam.
Tamara L ChurchKonstantin KriechbaumCarina SchieleVarvara Apostolopoulou-KalkavouraSeyed Ehsan HadiLennart BergströmPublished in: Biomacromolecules (2022)
By forming and directionally freezing an aqueous foam containing cellulose nanofibrils, methylcellulose, and tannic acid, we produced a stiff and tough anisotropic solid foam with low radial thermal conductivity. Along the ice-templating direction, the foam was as stiff as nanocellulose-clay composites, despite being primarily methylcellulose by mass. The foam was also stiff perpendicular to the direction of ice growth, while maintaining λ r < 25 mW m -1 K -1 for a relative humidity (RH) up to 65% and <30 mW m -1 K -1 at 80% RH. This work introduces the tandem use of two practical techniques, foam formation and directional freezing, to generate a low-density anisotropic material, and this strategy could be applied to other aqueous systems where foam formation is possible.
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