Nanoparticles are materials that are confined to the nanoscale in all three dimensions. Engineered nanoparticles play an important role in nanotechnology. The specific properties of nanoparticles is defined by particle size, chemical composition, crystal
Chapter 1: Biogenic nanoparticles: an introduction to what they are, how they are synthesized and their applications. In: Rai M, Duran N (eds). Metal nano- particles in microbiology. Springer, 2011, 1-2... M Rai,Duran, Nelson - Springer Berlin Heidelberg 被引量: 50发表: 2011年 Chapter...
Nanorattles or Yolk-Shell Nanoparticles-What Are They, How Are They Made, and What Are They Good For? Priebe M, Fromm KM (2015) Nanorattles or yolk-shell nanoparticles--what are they, how are they made, and what are they good for? Chem Eur J 21:... Priebe,Magdalena,Fromm,... 被...
A digital reconstruction shows how atoms in a nanoparticle with crystal facets react when that nanoparticle collides with another of similar shape and size in a vacuum. The atoms turn blue when they are in contact with the opposing nanoparticle, which is not shown. In a new study, such recons...
We have explained how gold nanoparticles are different than other nanoparticles, how they are formed, and what are their major benefits and applications.
In an early phase of our study we determined that it was not possible to achieve the desirable sample dilution ratio as quickly as what would be required to quench chemical reaction and to prevent particles from coagulating near the probe tip. A sample orifice was drilled in the middle of ...
The separation of molecular enantiomers is an extremely difficult task, because they are indistinguishable through interactions with achiral objects and have mostly identical physical properties, such as densities, solubilities, boiling and melting points, etc.2. Chiral chromatography, derivatiza- tion, ...
Further dynamic sequences recorded on other systems in different ETEM conditions have already been treated or are still under investigation; they will serve to improve the quantification of specific events such as NP crossings and to work on a better machine learning integration on both steps, i....
Because of their size limit, nanoparticles, like any other particles, begin to vary sharply from the total they cause when they reach a specific size [3]. They are divided into three main classes: three-dimensional (3D) particles obtained by blasting conductors, plasma aggregation, and thin ...
What sets Murata’s nanoparticles apart is that they are resistant to agglomeration, which is due to the short organic ligands incorporated in the nanoparticles as part of the production process. These ligands also make it possible to sinter the nanoparticles at relatively low temperatures, opening ...