Nanostructured materials are believed to play a fundamental role in orthopedic research
because bone itself has a structural hierarchy at the first level in the nanometer regime …

Degenerative diseases of bone such as osteoarthritis and osteoporosis can lead to bone
fractures and immobility, compromising quality of life. Titanium (Ti)-based implants have …

As baby boomers age, diabetes mellitus, cancer, osteoarthritis, cardiovascular diseases,
and orthopedic disorders are more widespread and the demand for better biomedical …

abstract Micro/nanotopographical modification of biomaterials constitutes a promising
approach to direct stem cell osteogenic differentiation to promote osseointegration. In this …

Tissue engineering is a clinically driven field and has emerged as a potential alternative to
organ transplantation. The cornerstone of successful tissue engineering rests upon two …

Titania (TiO2) nanotube is gaining prominence as an implantation material due to its unique
properties such as high specific surface area and the ability to exhibit positive cellular …

We have investigated the formation of self-organized titanium oxide nanotube layers by
anodic oxidation on titanium alloys in electrolyte solutions with different temperatures (5, 10 …

In this paper, we investigated the antibacterial activity and the action mode of carbon
nanomaterials (CNMs) against the copper-resistant plant pathogenic bacterium Ralstonia …

Prevention of bacterial infection and promotion of osseointegration are two important issues
for titanium (Ti) implants in medical research. In addition, after a biofilm is formed on the …

Nanotechnology has considerably accelerated the growth of regenerative medicine in
recent years. Application of nanotechnology in regenerative medicine has revolutionized the …