In the contemporary era of nutrition science, food industries are facing myriad challenges in
assuring quality food with extended shelf life and long-term preservation. Biopolymer-based …

Advancements in polymer science and engineering have helped the scientific community to
shift its attention towards the use of environmentally benign materials for reducing the …

Biocompatible hydrogels with versatile functions are highly desired for demanding the
complicated tissue issues, including irregular site and motional wound. Herein, a bio-based …

Driven by its excellent physical and chemical properties, BC (bacterial cellulose) has
achieved significant progress in the last decade, rendering with many novel applications …

Due to the good biocompatibility and flexibility of cellulose and the excellent optical,
electronic, as well as mechanical properties of carbon nanomaterials (CNMs) …

Cellulose of bacterial origin, known as bacterial cellulose (BC), is one of the most versatile
biomaterials that has a huge potential in tissue engineering due to its favourable mechanical …

Dialdehyde carbohydrates (DCs) have found applications in a wide range of biomedical
field due to their great versatility, biocompatibility/biodegradability, biological properties, and …

Limitations associated with conventional bone substitutes such as autografts, increasing
demand for bone grafts, and growing elderly population worldwide necessitate development …

The inherent biological inertness and lack of three-dimensional (3D) macroporous structures
greatly hinder the use of pristine bacterial cellulose (BC) as a tissue engineering scaffold for …

Cellulose aerogels are considered to be potential multifunctional materials due to the
characteristics of a wide range of sources, biocompatibility, and porous properties. However …