The development of suitable biomaterials with the ability to improve repair and regeneration
of human tissues is continuously in progress, and mechanical properties of biomaterials play …

Bioceramics, particularly calcium phosphates, bioactive glasses, and crystalline silicates,
are a principal group of biomaterials employed for the regeneration of damaged tissues and …

In this study, Borassus flabellifer (Linn.)(BF) immature endosperm was decellularized to
produce three dimensional (3D) cellulose scaffolds that can support mammalian 3D cell …

This is a comprehensive study reporting the fabrication of highly porous Gehlenite scaffold
(Ca 2 Al 2 SiO 7)—both with and without surface modification—for the first time. The …

Biomechanics contains a wide variety of research fields related to biology and mechanics.
Actually, to better study or develop a tissue-engineered system, it is now widely recognized …

In this study, four-phase Gelatin-Polypyrrole-Akermanite-Magnetite scaffolds were fabricated
and analyzed using in-vitro tests and numerical simulations. Such scaffolds contained …

Motivated by the urgent need to address environmental concerns associated with traditional
food packaging, this review explores the shift towards sustainable, bio-based packaging …

This work focuses on the analysis of structural and functional properties of calcium
phosphate (CaP) incorporated bacterial cellulose (BC)-polyvinylpyrrolidone (PVP) based …

Bioceramics are the most promising materials used for hard tissue reconstruction. In this
study, wollastonite/hydroxyapatite (HAp/WS)-type composite ceramic structures were …

In this study, biomimetic 3D porous hybrid scaffolds were prepared from GC matrix with
subsequent doping of SeHA and GaHA nanocrystals through a bioinspired wet-chemical …