Home » Magnesium Nanoparticle Dispersion (Mg, Purity: 99.9 %, APS: 80nm)
|Product||Magnesium Nanoparticle Dispersion|
|Concentration||20 wt% (Available as per Customer requirement)|
|Dispersing Agent||Organic Solvent (DMF), IPA Ethanol, Water (ddH2O)|
|Quality Control||Each lot of Magnesium Nanoparticle Dispersion was tested successfully.|
|Main Inspect Verifier||Manager QC|
Magnesium nanoparticle dispersion is the most promising candidate due to its unique and excellent optical, electrical, thermal, mechanical and chemical properties and also its high ionic character. At the nanoscale, Magnesium nanoparticle dispersion shows high reactivity because of the comportment of a great number of highly reactive edges, structural defects on the surface, unusual lattice planes and high surface to volume ratio.
Magnesium nanoparticle dispersion has a very high melting point and low heat capacity, which makes it a suitable candidate for insulation applications. Magnesium nanoparticle dispersion has numerous applications in various fields such as catalyst supports, agricultural products, paints, superconductor products, antimicrobial materials, photonic devices, refractory materials, electro-optical devices, sensors and as adsorbent. Magnesium nanoparticle dispersion also possesses good additive properties in heavy fuel oil because of high oil dispersion ability and large specific surface area and also bactericidal performance in the aqueous environments due to the formation of superoxide.
Magnesium nanoparticle dispersion is an important inorganic material with a wide band-gap. It has been used in many applications such as catalysis, catalyst supports, toxic waste remediation, refractory materials, and adsorbents, the additive in heavy fuel oils, reflecting and anti-reflecting coatings, superconducting and ferroelectric thin films as the substrate, superconductors, and lithium-ion batteries, etc.
Magnesium nanoparticle dispersion has antibacterial activities against foodborne pathogens. Recently, Magnesium nanoparticle dispersion has shown promise for application in tumor treatment. Magnesium oxide (MgO) nanoparticles also have considerable potential as an antibacterial agent.
Magnesium nanoparticle dispersion, a versatile oxide material with assorted properties finds extensive applications in catalysis, ceramics, toxic waste remediation, and as an additive in paint and superconductor products. Also, owing to its very large bandgap, excellent thermodynamically stability, low dielectric constant and refractive index, it has been used for growing various thin-film materials.
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