Home » Tungsten Oxide Nanorods (Purity: 99.9%, Diameter: 40-60nm)


Stock No. CAS MSDS Specification COA
NS6130-12-000246 1314-35-8 MSDS pdf Specification pdf COA pdf

Tungsten Oxide Nanorods

Product: Tungsten Oxide Nanorods (Purity: 99.9%, Diameter: 40-60nm)


TEM - Tungsten Oxide Nanorods

TEM - Tungsten Oxide Nanorods

Tungsten Oxide Nanorods

Tungsten Oxide Nanorods

Product Tungsten Oxide Nanorods
Stock No NS6130-12-000246
CAS 1314-35-8 Confirm
Purity 99.9% Confirm
Diameter 40-60nm Confirm
Length up to 200µm Confirm
Molecular Formula WO3 Confirm
Molecular Weight 230.25g/mol Confirm
Form Nanorods Confirm
Color Gray Black Confirm
Density 7.16g/cm3 Confirm
Concentration 1 - 2 % Confirm
pH 7.9-8.1 Confirm
Coefficient of Variation 51% Confirm
Standard Deviation 10% Confirm
Polymer Content < 0.5% Confirm
Solvet Ethanol, Water, Isopropyl Alcohol
Quality Control Each lot of Tungsten Oxide Nanorods was tested successfully.
Main Inspect Verifier Manager QC

Typical Chemical Analysis

Assay 99.9%
Other Metal 99.9%

Expert Reviews

Jules L. Routbort, (Argonne National Laboratory, Argonne, USA)

Tungsten Oxide Nanorods: Nanowires are ultrafine wires or linear arrays of dots, formed by self-assembly. They can be made from wide range of materials. Semiconductor Nanowires made of (silicon, indium phosphide and gallium nitride), insulating Nanowires (sio2,tio2), Molecular Nanowires  either (organic e.g. DNA) or inorganic  Mo6S9−xI), Metallic Nanowires (Ni, Pt, Au) have demonstrated remarkable magnetic, electronic and optical characteristics.

Dr. Ms. Kamiko Chang, Ph.D, (University of Science and Technology Beijing, China)

Tungsten Oxide Nanorods: Nanowires have potential applications in high-density data storage, either as magnetic read heads or as patterned storage media,  and electronic and opto electronic nanodevices, for metallic interconnects of quantum devices and nanodevices.The preparation of these nanowires relies on sophisticated growth techniques, which include self assembly processes, where atoms arrange themselves naturally on stepped surfaces, chemical vapour deposition (CVD) onto patterned substrates, electroplating or molecular beam epitaxy (MBE).

Dr. Nicholaos G. Demas, (Newcastle University School Of Machanical & Systems Engg. UK)

Tungsten Oxide Nanorods: One-dimensional structures have been called in different ways: nanowires, nanorod, fibers of fibrils, whiskers, etc. The common characteristic of these structures is that all they have a nanometer size in one of the dimensions, which produces quantum confinement in the material and changes its properties.

Takeo Oku, (Department of Materials Science, The University of Shiga Prefecture, Hassaka 2500, Hikone, Shiga 522-8533, Japan)

Tungsten Oxide Nanorods: Nanowires will be able to greatly reduce the size of electronic devices while allowing to increase the efficiency of those devices. Nanowires can be assembled in a rational and predictable because nanowires chemical composition, length, diameter, doping/electronic properties can be precisely controlled during synthesis.

Dr. Ms. Guixin (Susan), Ph.D, (Switzerland-Institute for Inorganic Chemistry, Zurich, Switzerland)

Tungsten Oxide Nanorods: Nanowires represents the best-defined class of nanoscale building blocks, and this precise control over key variables has correspondingly enabled a wide range of devices and integration strategies to be pursed.

Tungsten Oxide Nanorods

Tungsten Oxide Nanorods

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