The use of biomedical metallic materials in research and clinical applications has been an
important focus and a significant area of interest, primarily owing to their role in enhancing …

Benefits achieved by the biodegradable magnesium (Mg) and zinc (Zn) implants could be
suppressed due to the invasion of infectious microbial, common bacteria, and fungi …

We report a one-pot plasma electrolytic oxidation (PEO) strategy for forming a multi-element
oxide layer on the titanium surface using complex electrolytes containing Na2HPO4, Ca …

This review considered various methods for depositing special modifying coatings on
medical implants made of titanium alloys including techniques such as electrochemical …

Conductive materials have played a significant role in advancing society into the digital era.
Such materials are able to harness the power of electricity and are used to control many …

Implant-associated infections (IAIs) represent a major health burden due to the complex
structural features of biofilms and their inherent tolerance to antimicrobial agents and the …

The application of orthopedic implants for bone tissue reconstruction and functional
restoration is crucial for patients with severe bone fractures and defects. However, the …

Ti-Ni shape memory alloys (SMA) are used extensively in the field of orthopedics owing to
their unique physical and mechanical features, excellent corrosion resistance, and good …

The demand for orthopedic implants coated with biocompatible and bactericidal materials is
escalating because of the rising bacterial resistance against synthetic antibiotics …

Bone is a mineralized tissue with the intrinsic capacity for constant remodeling. Rapid
prototyping techniques, using biomaterials that mimic the bone native matrix, have been …