Though the history of mankind, we are strongly fighting with infected diseases that are
induced by bacteria, fungi, viruses, and other pathogens. Although a variety of medicines …

Among various classes of biomaterials, the majority of non‐centrosymmetric crystalline
materials exhibit piezoelectric properties, ie, the accumulation of charge in response to …

Microbes have remarkable capabilities to attach to the surface of implanted medical devices
and form biofilms that adversely impact device function and increase the risk of multidrug …

In biomaterials science, it is nowadays well accepted that improving the biointegration of
dental and orthopedic implants with surrounding tissues is a major goal. However, implant …

The growing demand for titanium-based implants and the subsequent rise in implant-
associated infections necessitate novel developments in anti-infective technologies. Recent …

At present, the improvement of nitrate and mixed heavy metals removal in wastewater by
microorganism are urgently needed. Previous studies have shown that Pseudomonas …

Peri-implant infection is rapidly becoming an–if not the most–important clinical challenge for
indwelling medical devices. To alleviate the global rise in antibiotic use for the treatment of …

Microbial contamination and subsequent formation of biofilms frequently cause failure of
surgical implants and a good understanding of the bacteria–surface interactions is vital to …

The macro architecture and micro surface topological morphology of implants play essential
roles in bone tissue regeneration. 3D printing technology provides enormous advantages for …

The recently developed additively manufacturing techniques have enabled the fabrication of
porous biomaterials that mimic the characteristics of the native bone, thereby avoiding stress …