Nano powders: A-Z

Silicon Oxide Nanoparticles/ Silicon Oxide Nanopowder ( SiO2, 99.5%, 10~20nm)

Silicon Oxide Nanoparticles/ Silicon Oxide Nanopowder ( SiO2, 99.5%, 10~20nm)

기본 정보
Product Name Silicon Oxide Nanoparticles/ Silicon Oxide Nanopowder ( SiO2, 99.5%, 10~20nm)
Sale Price Call for Price
Product Code Np-Ag-6807NM
Quantity 수량증가수량감소
Stock 자세히
상품 옵션
Quantity

 
Product Properties

Silicon Oxide nanopowder/ nanoparticles (SiO2-x, x = ~0.5, 99.5%), porous
White nanopowder, no any surface treatment
SiO2 Nanopowder APS: 10-20 nm
SiO2 Nanopowder SSA: 640 m2/g
SiO2 Nanopowder Porosity: 0.6 ml/g
SiO2 Nanopowder Morphology: porous and nearly spherical
SiO2 Nanopowder Bulk Density: 0.08-0.10 g/cm3
6807NM Silicon Oxide Nanoparticles/ Nanopowder Specification for Download 
6807NM Silicon Oxide Nanoparticles/ Nanopowder MSDS for Download


Health and Safety


Hazard Statements

N/A

Transport Information

N/A

Suggest equipment

Eyeshields, Gloves, type N95 (US), type P1 (EN143) respirator filter



Silicon Oxide( SiO2 ) Nanopowder General Description 

A fine white powder composed of silicon oxide particles ranging from 10-30nm in diameter, this material is perhaps one of the most versatile and adjustable 
nanomaterials on the market. Also known as silica or silicon dioxide nanopowder, this material is primarily divided into two structure types, porous P-type 
silica and spherical S-type silica, which each lends itself to unique applications and properties.
Beyond this, silicon oxide nanoparticles can be further adapted through a number of surface modification processes. Over the years, researchers have
 discovered several worthwhile adjustments to be made to silica, leading to the widespread availability of variants modified to be hydrophobic and/or oleophilic, 
modifying them with epoxy or amino groups, treating the particles with coupling agents, etc.


Silicon Oxide( SiO2 ) Nanopowder Applications

  •      •  Applications of these various forms of silica nanopowder are varied and encompass numerous industries and research avenues, including but not limited to:

  •      •  Medical applications. Like many stable, non-toxic nanomaterials, silica nanoparticles have been extensively researched for their potential in specialized
             drug delivery systems. Silicon oxide nanopowders also play roles in more nanotech-specific, individualized therapies targeting specific diseases,
             in an approach combining therapeutic capabilities and diagnostic capabilities into a single agent called ‘theranostics’.

  •      •  Composite materials. The high versatility of silica nanoparticles in their many configurations make them a key ingredient in the production of many different 
  •         composite materials. The list includes, but isn’t limited to concretes, glasses, ceramics, alloys, plastics, and rubbers.

  •      •  Paint. Silica nanoparticles have been extensively used in various paints to improve opacity and help add a smooth, glossy finish to the completed product.

  •      •  Cosmetics. Like many non-toxic nanopowders, silicon oxide nanoparticles have been explored and applied extensively by the cosmetics industry in recent years.
            Silica, in general, has been used in cosmetics as an abrasive, a bulking agent, to render cosmetics more opaque, to prevent caking, and as a suspension agent.

  •      •  Magnetics. The unique properties of certain formations of silica nanoparticles make them of value in producing a number of magnetic materials.

  •      •  Catalyst. Like many nanoparticles, silicon oxide nanoparticles have been researched and applied extensively in catalysis. In particular, they’ve been used in
             various processes as both a highly effective catalyst carrier and a remarkably active catalyst.