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Tantalum Pentoxide

Tantalum Pentoxide Tantalum Nanoparticles research has gained momentum over the recent years mainly due to the unexpected behavior of the basic elements when their atomic and molecular properties are altered. This article will look into the properties and applications of tantalum pentoxide. Tantalum pentoxide, also known as tantalum (V) oxide, is the inorganic compound with the formula Ta2O5. It is a white solid that is insoluble in all solvents...

Tantalum Carbide Nanoparticle

Tantalum Carbide Nanoparticle Tantalum Carbide Nanoparticle: Transition metal carbides are in demand for the unique properties resembling with metal and ceramics constituents. These carbides have high hardness, high melting temperature, and high temperature strength. They have been used as hard constituents in metal matrix composites for high temperature applications and as coatings on cutting tools. Among these carbides tantalum carbide is very...

Tantalum Nanopowder

Tantalum Nanopowder Tantalum Nanopowder: Nanoparticles are currently being evaluated and used in many fields owing to their excellent diffusion and optical properties, ability to form suspensions and high surface area to volume ratio. Tantalum is highly conductive to heat and electricity and this property have made it the material of choice for electronic capacitors used in telecommunications and hand-held electronic equipment such as laptops and...

Tin Oxide Dispersions

Tin Oxide Dispersions Tin Oxide Dispersions: The dispersion is a system in which the particles are dispersed in a continuous phase of different composition or state. Nanopowder is the solid form of nanoparticles, which are usually, contains the nano sized agglomerate. These agglomerates can be re-dispersed using various methods like ultrasonication, stirring etc.  Tin Oxide Dispersion Tin oxide is a wide band gap n-type semiconductor with...

Tin Oxide Nanoparticles Application

Tin Oxide Nanoparticles Application Tin Oxide Nanoparticles Application: Nanostructure metal oxides have attracted a lot of attention due to their technological applications and outstanding properties. The magnetic, optical, catalytic and electronic properties of nanomaterials depend strongly on size, structure and shape of nanoparticles. Another reason for attraction of scientists’ attention towards nano size particles is that, they behave...

Tin Nanoparticle

TIN Nanoparticle Tin Nanoparticle: Nanoparticles research is rapidly growing into an extensive research area. This is due to the fact that nanoparticles can be easily altered by varying their chemical environment, shape and size. One of the key benefits of nanoparticles is that their properties differ from bulk material of the same composition.  Tin Nanoparticle Tin  Nanoparticle is a malleable post-transition metal that is not easily...

CNTs Dispersions

CNTs Dispersions CNTs DISPERSIONS: The dispersion is a system in which the particles are dispersed in a continuous phase of different composition or state. Carbon nanotubes are the solid form of nanoparticles, which are usually, contains the micro sized agglomerate. These agglomerates can be re-dispersed using various methods like ultrasonication, stirring etc. Carbon nanotubes (CNTs) have great potential to be used as drug or single-stranded DNA...

Silicon Nanoparticle

SILICON NANOPARTICLE With the rapid development of nanoscience and nanotechnology in multidisciplinary fields, nanomaterials have attracted extensive attention. Heavy-metal-free nanoscale silicon has been investigated in depth for its unparalleled physical and chemical properties such as the feasibility for surface functionalization, size-dependent tunable multicolor light emission, stability against photo bleaching and intriguingly, favorable nontoxicity....

Multi Walled Carbon Nanotubes

MULTI WALLED CARBON NANOTUBES Carbon nanotubes (CNTs) describe a family of nanomaterials made up entirely of carbon. In this family, multi-walled carbon nanotubes (MWCNTs) are of special interest for the industry. These can be considered as a collection of concentric SWNTs with different diameters, lengths and properties. Structurally MWCNTs consist of multiple layers of graphite superimposed and rolled in on them to form a tubular shape. The distance...

Application Single Walled Carbon Nanotubes

Application Single Walled Carbon Nanotubes The special nature of carbon combines with the molecular perfection of single-wall CNTs to endow them with exceptional material properties, such as very high electrical and thermal conductivity, strength, stiffness, and toughness. No other element in the periodic table bonds to itself in an extended network with the strength of the carbon-carbon bond. The delocalized pi-electron donated by each atom is free...