Tissue engineering has emerged as the best alternative to replacing damaged
tissue/organs. However, the cost of scaffold materials continues to be a significant obstacle; …

Cellulose, a polysaccharide of β (1–4) linked D-glucose units, is a cheap, eco-friendly and
most abundant natural polymer on this planet. Among various cellulosic materials, cotton …

Tissue-engineering has become the best alternative solution for replacing the damaged
tissues. However, the cost of scaffold materials is still a big challenge, so the development of …

Cotton is cheap, easily available and widely used as surgical material. Therefore, cotton
would be good raw material to design a scaffold for tissue engineering applications. In this …

Cellulose, the most abundant polymer on Earth, has been widely utilized in its nanoform due
to its excellent properties, finding applications across various scientific fields. As the demand …

Biopolymers have been used as a replacement material for synthetic polymers in scaffold
forming due to its biocompatibility and nontoxic properties. Production of scaffold for tissue …

Natural bone constitutes a complex and organized structure of organic and inorganic
components with limited ability to regenerate and restore injured tissues, especially in large …

Cellulose scaffolds containing nanoor microhydroxyapatite (nHA or μHA) were prepared
by the regeneration of cellulose from its acetylated derivative and the mechanical …

In the present work, a novel strategy was explored to fabricate nanofiber scaffolds consisting
of cellulose assimilated with titanium dioxide (TiO2) and silver (Ag) nanoparticles (NPs). The …

A novel hybrid nanofibrous scaffold prepared with chitosan [containing 1.2 wt% polyethylene
oxide (PEO)] and bioactive glass (BG) was fabricated by an electrospinning technique. The …