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Magnetic iron oxide with the chemical formula of Fe3O4 is among the three most common and naturally occurring oxides of iron containing both Fe2+ and Fe3+ cations found in a mineral called magnetite. Iron oxide is regarded as a permanent magnetic material with ferromagnetic properties mostly employed as a black pigment. The purpose of this article is to discuss the properties, synthesis and applications of iron oxide in detail. Nanografi offers a comprehensive selection of single …

Graphene has been recognized as a groundbreaking material with the potential to revolutionize the next wave of electronic technologies. Its extraordinary properties, including exceptional electrical conductivity, mechanical strength, and a two-dimensional structure, have significant implications for various fields, notably quantum computing. In this realm, graphene has contributed to notable advancements, such as improving the separation of Cooper pairs in superconductors through the …

Graphite fluoride compound microparticles are produced from graphite by reacting it with fluorine gas at high temperatures of usually around 500 to 600 degree Celsius. The microparticle form is in the powder form, which is very soft in texture. It is very hydrophobic. Its surface energy is very low. IntroductionIt has been found to work under extreme conditions retaining its properties hence the use in rocket propellers. It is a very widely used solid lubricant, with exceptional …

Metallic oxide powders, particularly nickel oxide, have garnered significant attention in research due to their intriguing magnetic, electrical, optical, and thermal properties. These properties are not only unique but are highly influenced by the powder’s size, structure, and morphology, which in turn are determined by the synthesis methods employed. The exceptional characteristics of nickel oxide powders stem from quantum effects linked to their high surface area to volume ratio. To expl …

Solutions and dispersions are mixtures of two or more compounds. The difference between solutions and dispersions stems from the interactions between mixing compounds. Solutions are single phase mixtures while dispersions contain multiple phases. Solutions and dispersions can be differentiated through the Tyndall effect and Brownian motion. Both solutions and dispersions are used in various different applications such as energy storage, food industry, cosmetics, coatings, and el …