Freeze casting, also known as ice templating, is a particularly versatile technique that has
been applied extensively for the fabrication of well‐controlled biomimetic porous materials …

In recent years, there have been increasingly rapid advances of using bioactive materials in
tissue engineering applications. Bioactive materials constitute many different structures …

Magnetic nanoparticles (NPs) are emerging as an important class of biomedical functional
nanomaterials in areas such as hyperthermia, drug release, tissue engineering, theranostic …

Agarose is a natural polysaccharide polymer having unique characteristics that give reason
to consider it for tissue engineering applications. Special characteristics of agarose such as …

Freeze-casting produces materials with complex, three-dimensional pore structures which
may be tuned during the solidification process. The range of potential applications of freeze …

In the recent years, a paradigm shift is taking place where metallic/synthetic implants and
tissue grafts are being replaced by tissue engineering approach. A well designed three …

Chitosan-based adsorbents have attracted increasing attention in water and wastewater
treatment in recent years due to its abundance and low price, as well as rich amino and …

Chitosan is the most abundant natural biopolymer, after cellulose. It is mainly derived from
the fungi, shrimp's shells, and exoskeleton of crustaceans, through the deacetylation of …

Tissue is vital to the organization of multicellular organisms, because it creates the different
organs and provides the main scaffold for body shape. The quest for effective methods to …

Biomedical engineering seeks to enhance the quality of life by develo** advanced
materials and technologies. Chitosan-based biomaterials have attracted significant attention …