Over the past few decades, nanoparticles have made a significant impact in numerous fields, including chemical, clean energy, composites, electronics, and healthcare.
By Sarah Moore
6 Apr 2021
New research has shed light on how the preparation of carbon nanotubes can impact their surface roughness, and, therefore, their properties and suitability for biomedical applications. Here, we discuss this research and its relevance.
By Sarah Moore
2 Apr 2021
While graphene has hit the headlines for nanomaterial-enhanced concrete, carbon nanotubes (CNTs) are also presenting themselves as an alternative option for improving the properties of concrete.
By Liam Critchley
1 Apr 2021
One of the most recent investigations has been to impregnate pine wood with nanosilver to see if the heat treatment benefits fall in line with similar studies where nanosilver has been used on other wood types.
By Liam Critchley
1 Apr 2021
NIR-II in vivo imaging revolutionizes preclinical research with deep tissue penetration and high-resolution capabilities, enhancing tumor and vascular studies.
Graphene is touted for several applications due to its beneficial properties and the synergistic benefits brought about by utilizing its different properties.
By Liam Critchley
24 Mar 2021
AZoNano speaks with Dr. Dimitar Dimov, who is the founder of Concrene. Concrene Limited is a London-based nanotechnology company, that has developed a breakthrough solution for the concrete industry. By applying cutting-edge nanoscience, Concrene works to improve the strength of concrete as well as reducing its carbon footprint.
Several different biological methods have emerged as alternative sources for generating a new category of nanoparticles known as green nanoparticles.
By Benedette Cuffari
16 Mar 2021
Research published in February 2021 laid out a deposition method using heat treatment which resulted in a thin film with superior properties to other methods.
By Ben Pilkington
12 Mar 2021
With no UVC exposure to N95 face masks, the fibers appear wider and more bundled. Voids between the fibers appear smaller than the UVC-treated samples. At 19J/cm2, the fibers exhibit a significant decrease in width, as well as increased separation.