Issue 9, 2018

Aerogel templating on functionalized fibers of nanocellulose networks

Abstract

We present novel spaghetti-like gel fibers of gelatin-functionalized cellulose nanocrystals (gCNCs) and aerogel templating of semiconductors on the gCNC scaffolds. An injection method is first used to make CNC aerogel fibers by crosslinking with gelatin (GE). The gelation of the injectable fibers can be conducted by manipulating interactions between CNCs and GE to preserve the chiral nematic order. The gCNC fibers are then used as templates to make porous TiO2/gCNC aerogel composites with structural organization imparted by the chiral arrangement and hierarchical organization of the gCNC fibers. The uniqueness of this templating concept lies in its ability to truly replicate spindle-shaped features of CNCs in freestanding TiO2 nanofibrillar aerogels. The affinity of functional groups of gelatin on the CNC aerogels with metal-based precursors causes the attachment of TiO2 nanoparticles around cellulose nanorods to form core–shell-like aerogel composites. The uniform integration of these components leads to the retention of TiO2 aerogel fibers after thermal removal of the gCNC template. To further demonstrate the use of gCNC fibers for templating, they are used to fabricate polypyrrole composites that retain the chiral structure of the aerogel. These new templated fibers are promising materials for supercapacitor electrodes, sensors, catalysts, and dye-sensitized solar cells. The results described here demonstrate a new and generalizable method to construct mesoporous materials with an open-network structure through helicoidal aerogel templating at the nanoscale.

Graphical abstract: Aerogel templating on functionalized fibers of nanocellulose networks

Supplementary files

Article information

Article type
Research Article
Submitted
02 五月 2018
Accepted
29 六月 2018
First published
10 七月 2018

Mater. Chem. Front., 2018,2, 1655-1663

Aerogel templating on functionalized fibers of nanocellulose networks

T. Nguyen, W. Y. Hamad and M. J. MacLachlan, Mater. Chem. Front., 2018, 2, 1655 DOI: 10.1039/C8QM00200B

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