Objectives To examine the 16-year developmental history, research hotspots, and emerging
trends of zinc-based biodegradable metallic materials from the perspective of structural and …

Magnesium has been a focal point of significant exploration in the biomedical engineering
domain for many years due to its exceptional attributes, encompassing impressive specific …

Zinc (Zn) distinguishes itself as an excellent candidate for temporary orthopaedic implants
due to its advantageous corrosion rate compared to other biodegradable metallic materials …

Zn is an excellent choice for temporary orthopaedic implants since its degradation rate is
better than Mg-or Fe-based biodegradable metals and closely matches the healing pace of …

This paper discusses the possibility of developing metallic zinc (Zn) and its alloys as
temporary bio-implants by improving its properties through alloying, mechanical …

The role of anion in the formation of oxide coating by plasma electrolytic oxidation (PEO) has
been extensively studied. However, there was no clear evidence of the role of cation. This …

Blood-contacting medical devices such as biodegradable metallic bone implant materials
are expected to show excellent hemocompatibility both in vitro and in vivo. Different …

Plasma electrolytic oxidation (PEO) is a surface modification of metals to grow a ceramic-like
oxide coating with remarkably enhanced corrosion resistance. This work studies the …

The usage of nanoparticles in tissue engineering applications has increased significantly in
the last several years. Functional tissues are developed by regulating cell proliferation …

The limitless possibilities of nanotechnology can be explained by the remarkable
antimicrobial activity demonstrated by plant-derived biometallic nanoparticles, with a …