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799289

Sigma-Aldrich

Titanium dioxide

nanotubes, 25 nm average diameter, powder

Synonym(s):

Titania nanotubes, Titanium oxide nanopowder

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About This Item

Linear Formula:
TiO2
CAS Number:
EC Number:
UNSPSC Code:
12352302
NACRES:
NA.23

form

nanotubes
powder

Quality Level

average diameter

25 nm

bp

2972 °C

mp

1843 °C

application(s)

battery manufacturing

InChI

1S/2O.Ti

InChI key

GWEVSGVZZGPLCZ-UHFFFAOYSA-N

Application

One-dimensional nanostructures of metal oxides exhibit exotic properties such as high electron mobility, low carrier recombination rate, high surface to volume ratio, excellent surface activity etc. Owing to these outstanding properties TiO2 nanotubes find applications in dye sensitized solar cells and photocatalysis [, ].

Storage Class Code

13 - Non Combustible Solids

WGK

nwg

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable


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Poulomi Roy et al.
Angewandte Chemie (International ed. in English), 50(13), 2904-2939 (2011-03-12)
TiO(2) is one of the most studied compounds in materials science. Owing to some outstanding properties it is used for instance in photocatalysis, dye-sensitized solar cells, and biomedical devices. In 1999, first reports showed the feasibility to grow highly ordered
Synthesis and characterization of titania nanotube arrays by electrochemical method for dye sensitized solar cells
Archives of Applied Science Research, 5(5), 28-28 (2013)

Articles

Electronically, it behaves as a wide band gap (3.2 eV) semiconductor and exhibits memristor properties.2 Optically, TiO2 has high opacity with a very high refractive index3 (>2.4), and it exhibits strong absorbance in the UV range.

The production of hydrogen by catalytic water splitting is important for a wide range of industries including renewable energy petroleum refining and for the production of methanol and ammonia in the chemical industry.

The past several decades have seen major advancements in the synthesis of metal nanomaterials. Most recently, controlled synthesis has become versatile enough to regulate the exact number of atoms and ligands of very small metal nanoparticles, referred to as “clusters”.

Next generation solar cells have the potential to achieve conversion efficiencies beyond the Shockley-Queisser (S-Q) limit while also significantly lowering production costs.

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