Synthetic micromotor has gained substantial attention in biomedicine and environmental
remediation. Metal-based degradable micromotor composed of magnesium (Mg), zinc (Zn) …

Mineralization capable of growing inorganic nanostructures efficiently, orderly, and
spontaneously shows great potential for application in the construction of high‐performance …

In recent years, additive manufacturing of nickel-titanium (NiTi) alloys as medical implant
materials have attracted a lot of interest due to their precise, rapid, and integrated molding …

Iron (Fe) is regarded as a candidate material for biodegradable metallic implants due to its
biocompatibility and ability to degrade in physiological environemnt. However, the …

Despite being a weaker metal, zinc has become an increasingly popular candidate for
biodegradable implant applications due to its suitable corrosion rate and biocompatibility …

The biodegradable materials with a controllable degradation rate are the new-generation
implant types for medical treatments. Up to date, polymeric and metallic biodegradable …

Continuous monitoring systems that effectively manage neurological disorders and
cardiovascular diseases are crucial for enhancing the quality of life in aging societies. Soft …

Day‐by‐day biodegradable alloys and composites are getting more attention. Besides their
competing material properties with traditional permanent implants, their harmless …

Various metallurgical and surface modification techniques such as alloying, surface
treatments, and compositing will alter the properties of Fe-based degradable implants. This …

Recent advancements in manufacturing techniques aimed at improving biocompatibility and
with desired degradation rate of Fe. This chapter emphasizes material fabrication and …