In a paper published on February 7, 2019, in Nature Communications, researchers describe the excellent performance of ruthenium catalysts and provide an understanding of how the catalyst works.
By Lakshmi Supriya
20 Mar 2019
Assessing the thermal conductivity of various nanomaterials is essential to material engineering at the nanometric scale.
By Brett Smith
18 Mar 2019
This is an article about how quantum computing is currently being used, what the future applications of it are and where is may go.
By Meet A. Moradiya
6 Mar 2019
In this article, the different properties and formations of Buckminsterfullerene are discussed and how they affect different objects.
By Isabelle Robinson
25 Feb 2019
The primary areas of application of beryllium nanoparticles are in coatings, nanowire, nanofiber, plastics, and textiles and also in certain alloy and catalyst applications.
Tantalum oxide (Ta2O5) nanoparticles are magnetic oxide nanoscale particles having a spherical form. Applications include medical imaging, coatings, alloys and catalysts.
Gadolinium nanoparticles have potential applications in computer memory, cancer detection via MRI, fuel cells, and advanced optics, amongst others.
Lithium nanoparticles can be used in batteries, where they can accelerate charging and discharging due to their higher surface area, as well as in alloys and catalysts.
Nanoparticles research is an area of extensive interest as the demand for nanoparticles, according to market reports, is said to skyrocket by 2020.
Antimony nanoparticles can be manufactured using a facile electrochemical method, and have applications including anti-friction alloys, flame-proofing, and paints and enamels.