Mg and its alloys are drawing huge attention since the last two decades as a viable option
for temporary implants applications. A commendable progress has already been made in …

Magnesium (Mg) and Mg alloys are considered as potential candidates for biomedical
applications because of their high specific strength, low density, and elastic modulus …

As promising biodegradable materials with nontoxic degradation products, magnesium (Mg)
and its alloys have received more and more attention in the biomedical field very recently …

Magnesium (Mg) and its alloys are potential metals for biodegradable implants because of
several benefits, including a reduction of stress shielding effect in the implant for orthopedic …

Patients suffering bone fractures in different parts of the body require implants that will
enable similar function to that of the natural bone that they are replacing. Joint diseases …

Carbon materials constitute a growing family of high‐performance materials immersed in
ongoing scientific technological revolutions. Their biochemical properties are interesting for …

Biodegradable alloys and especially magnesium-based alloys are considered by many
researchers as materials to be used in medicine due to their biocompatibility and excellent …

Wireless sensor network nodes and mobile devices are normally powered by batteries that,
when depleted, must be recharged or replaced. This poses important problems, in particular …

This work aimed to improve the rapid biodegradation, poor wear resistance properties, and
lack of bioactivity of metallic biomaterials to be used in orthopedic applications. In this …

Biodegradable metals, zinc and magnesium, have been regarded as next-generation,
biomedical implant materials to promote tissue repair and regeneration. These implants …