Titanium and its alloys are dominant material for orthopedic/dental implants due to their
stable chemical properties and good biocompatibility. However, aseptic loosening and peri …

In the last 5 years, a wide variety of surface modification strategies are explored to improve
the integration of poly (etheretherketone)(PEEK) implants with bone. Since PEEK does not …

Abstract Background Titanium (Ti) has been utilized as hard tissue replacement owing to its
superior mechanical and bioinert property, however, lack in tissue compatibility and …

Improving bone regeneration is one of the most pressing problems facing bone tissue
engineering (BTE) which can be tackled by incorporating different biomaterials into the …

Topographical cues on materials can manipulate cellular fate, particularly for neural cells
that respond well to such cues. Utilizing biomaterial surfaces with topographical features can …

Graphene and its derivatives have been well‐known as influential factors in differentiating
stem/progenitor cells toward the osteoblastic lineage. However, there have been many …

Biocompatible conductive tough hydrogels represent a new class of advanced materials
combining the properties of tough hydrogels and biocompatible conductors. Here, a simple …

Currently, combining biodegradable polymeric scaffolds with living cells for bone repair has
received significant attention. Ideal bone tissue engineering scaffolds should be …

Graphene is a single-layer two-dimensional carbon-based nanomaterial. It presents as a
thin and strong material that has attracted many researchers' attention. This study provides a …

In recent times, food safety has become a topic of debate as the foodborne diseases
triggered by chemical and biological contaminants affect human health and the food …