However, detailed understanding of bacterialcellulose hydrolysis is primarily confined to a few model isolates.
2
A powerful replica molding methodology to transfer on-demand functional topographies to the surface of bacterialcellulose nanofiber textures is presented.
3
We successfully fabricated various microchannel structures embedded in the bulk bacterialcellulose hydrogels and retained their integrity after the drying process.
4
Upon bacterial fermentation, the generated bacterialcellulose nanofibers are assembled in a three-dimensional network reproducing the geometric shape imposed by the mold.
5
Moreover, bacterialcellulose nanofibers can be conveniently processed into three-dimensional (3D) intertwined structures and form stable paper devices after simple drying.