4.8 Article

Transparent, Anisotropic Biofilm with Aligned Bacterial Cellulose Nanofibers

Journal

ADVANCED FUNCTIONAL MATERIALS
Volume 28, Issue 24, Pages -

Publisher

WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.201707491

Keywords

anisotropic biofilms; bacterial cellulose; biofilms; multiscale alignment; transparent biofilms

Funding

  1. US Department of Energy, Office of Science, Basic Energy Sciences [DESC0011912]

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Cellulose nanofibrils are attractive as building blocks for advanced photonic, optoelectronic, microfluidic, and bio-based devices ranging from transistors and solar cells to fluidic and biocompatible injectable devices. For the first time, an ultrastrong and ultratough cellulose film, which is composed of densely packed bacterial cellulose (BC) nanofibrils with hierarchical fibril alignments, is successfully demonstrated. The molecular level alignment stems from the intrinsic parallel orientation of crystalline cellulose molecules produced by Acetobacter xylinum. These aligned long-chain cellulose molecules form subfibrils with a diameter of 2-4 nm, which are further aligned to form nanofibril bundles. The BC film yields a record-high tensile strength (approximate to 1.0 GPa) and toughness (approximate to 25 MJ m(-3)). Being ultrastrong and ultratough, yet the BC film is also highly flexible and can be folded into desirable shapes. The BC film exhibits a controllable manner of alignment and is highly transparent with modulated optical properties, paving the way to enabling new functionalities in mechanical, electrical, fluidic, photonics, and biocompatible applications.

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