Nano Dispersions – High Purity Copper Nanoparticles Ink
Product: Copper Nanoparticles Ink (Cu, Purity: 99.9 %, APS: <80nm)
Quality Control: Each lot of NANOSHEL Copper Nanoparticles Ink was tested successfully.
|Material||Copper Nanoparticles Ink|
|Surface Tension||30-32 dynes/cm||Confirm|
|Metal Loading||10-30 %||Confirm|
|Typical Cured Thickness||70µm||Confirm|
|Concentration||<5% (Available as per Customer requirement)|
|Dispersing Agent||Organic Solvent (DMF), IPA Ethanol, Water (ddH2O)|
|Available Quantities||10ml, 50ml, 100ml, 250ml and larger quantities|
|Main Inspect Verifier||Manager QC|
Typical Chemical Analysis
Dr. Alan Crawford Ph.D (National Metallurgical Academy of Ukraine, Dnipropetrovsk, Ukraine)
A dispersion is a system in which particles are dispersed in a continuous phase of a different composition (or state). A dispersion is classified in a number of different ways, including how large the particles are in relation to the particles of the continuous phase, whether or not precipitation occurs, and the presence of Brownian motion.
Dr. Alte Schule Rheingau PhD. (Limerick Institute of Technology, Limerick, Ireland)
Dispersions do not display any structure i.e the particles dispersed in the liquid or solid matrix are assumed to be statistically distributed. The percolation theory usually describe the properties if dispersions. Dispersions are plentiful in types and in use all over the world in innumerable applications.
Dr. Bunroeun Thong, Professor (Phnom Penh Institute of Technology,Phnom Penh, Cambodia)
Dispersion is a process by which agglomerated particles are separated from each other and a new interface, between an inner surface of the liquid dispersion medium and the surface of the particles to be dispersed.
Dr. Ms. Karel Gorissen (Costa Rica Institute of Technology, Alajuela, Limon)
Dispersions have structures very much different from any kind of statistical distribution, but in contrast very much showing structures similar to self-organisation, which can be described by non-equilibrium thermodynamics.
Dr. Ralph Bressler(University of Southern Queensland, Australia)
Dispersive applications of nanoparticles include optical, thermal, and diffusion barriers. Other applications include imaging ink jet materials, electrophotography, pharmaceuticals, flavor enhancers, pesticides, lubricants, and other proprietary applications specific to industry.
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