Marine resources have tremendous potential for developing high-value biomaterials. The
last decade has seen an increasing number of biomaterials that originate from marine …

Natural bone tissue is composed of calcium-deficient carbonated hydroxyapatite as the
inorganic phase and collagen type I as the main organic phase. The biomimetic approach of …

Calcium phosphates (CaPs) are ubiquitous in nature and vertebrate bones and teeth, and
have high biocompatibility and promising applications in various biomedical fields …

A great deal of research is ongoing in the area of tissue engineering (TE) for bone
regeneration. A possible improvement in restoring damaged tissues involves the loading of …

Due to a prolonged life expectancy, the number of orthopedic-related fractures and
pathologies is increasing, leading to a tremendous demand for efficient orthopedic …

As an essential element, magnesium is involved in a variety of physiological processes.
Magnesium is the second most abundant cation in cells and the fourth most abundant cation …

Advanced thermal management materials with low thermal conductivity and robustness
have been a research hotspot for energy conservation and sustainable development …

Chitosan as a biobased polymer is gaining increasing attention due to its extraordinary
physico‐chemical characteristics and properties. While a primary use of chitosan has been …

Biomaterials are in use for the replacement and reconstruction of several tissues and organs
as treatment and enhancement. Metallic, organic, and composites are some of the common …

Bone has a remarkable potential for self-healing and repair, yet several injury types are non-
healing even after surgical or non-surgical treatment. Regenerative therapies that induce …