Nanocellulose is currently in the limelight of extensive research from fundamental science to
technological applications owing to its renewable and carbon‐neutral nature, superior …

In this review, we highlight the importance of nanostructure of cellulose-based biomaterials
to allow cellular adhesion, the contribution of nanostructure to macroscale mechanical …

Bacterial cellulose (BC), with non-toxicity, high purity, and biocompatibility, has been
considered as a versatile candidate for various biomedical applications. Recently, the …

Tissue engineering is a rapidly-growing approach to replace and repair damaged and
defective tissues in the human body. Every year, a large number of people require bone …

Bacterial cellulose (BC) is an important polysaccharide synthesized by some bacterial
species under specific culture conditions, which presents several remarkable features such …

Bacterial cellulose (BC) is a promising unique material for various biomedical and cosmetic
applications due to its morphology, mechanical strength, high purity, high water uptake, non …

Polysaccharide‐based hydrogels have multiple advantages because of their inherent
biocompatibility, biodegradability, and non‐toxicic properties. The feasibility of using …

Carbon nanomaterials (CNMs) mainly include fullerene, carbon nanotubes, graphene,
carbon quantum dots, nanodiamonds, and their derivatives. As a new type of material in the …

Natural biomaterials are extensively used in tissue engineering due to their microstructure
interconnectivity and inherent bioactivity which mimics of natural extracellular matrix (ECM) …

A novel nanomaterial, bacterial cellulose (BC), has become noteworthy recently due to its
better physicochemical properties and biodegradability, which are desirable for various …