The research and study area of tribology is one of the most interdisciplinary areas in science today. In short, tribology is the study of interacting surfaces in relative motion.
By Liam Critchley
21 Dec 2017
Tribology is the study of interacting surfaces in motion and the measurement of properties such as friction, wear and abrasion. When designing nanoscale devices the consideration of tribology is particularly important because the high surface area ratio enhances problems with friction and wear.
Tribology is the science of wear, friction and lubrication which has been utilized in biomedical applications. Medical grade metals and alloys can provide internal support in the body and are employed as replacements for biological tissue.
Tribological properties associated with wear, friction and lubrication are important to the implementation of many biomedical applications. Medicine now allows for the replacement of biological tissue with artificial devices.
In a collaborative effort between researchers from the Samsung Advanced Institute of Technology (SAIT) and Seoul National University’s School of Chemical and Biological Engineering, a unique “graphene” ball has been designed to improve charging speeds by five-fold and increase battery capacity by an impressive 45%.
By Benedette Cuffari
18 Dec 2017
As construction and industry grow, it is expected that the application of antimicrobial, antifungal and antibacterial biocides will continue to rise as well.
By Benedette Cuffari
8 Dec 2017
Graphene is a material formed from carbon in a honeycomb structure with one-atom thickness. It provides distinctive optical, thermal, electronic and mechanical properties. The material can be manufactured into sheets, flakes and graphene oxide to provide a variety of applications to the field of biomedicine.
Nanocomputing is a term used for the representation and manipulation of data by computers smaller than a microcomputer. Current devices are already utilizing transistors with channels below 100 nanometers in length.
There are many other 2D materials than graphene that exhibit a hexagonal array and are uni-atomic. A team of researchers from Brazil and Germany have used theoretical ab-initio methods to investigate how other group IV 2D materials, the so-called X-enes, interact when deposited onto a graphene-silicon carbide substrate.
By Liam Critchley
28 Nov 2017
Graphene is constantly being employed into various battery and energy storage technologies and this has become one of the largest growing areas of graphene research commercially.
By Liam Critchley
24 Nov 2017