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ITO (Indium Tin Oxide)

Indium Tin Oxide (ITO) nanoparticles combine excellent electrical conductivity with high optical transparency, making them a key material for next-generation functional coatings and electronic devices. Thanks to their tunable composition (typically In₂O₃:SnO₂ in a 95:5 or 90:10 ratio) and nanoscale size, ITO nanoparticles enable precise control of electrical and optical properties, supporting applications such as transparent conductive films, antistatic coatings, optoelectronic components, smart windows, and advanced sensors.

Properties of our ITOnanoparticles

SOLUTION 1

SOLUTION 2

Size: 10-15 nm

Phase: Hexagonal

Size: ~ 50 nm

Phase: Cubic

SOLUTION 1

Size: ~ 10 nm

Phase: Ceria (cubic)

SOLUTION 2

Size: ~ 50 nm

Phase: Ceria (cubic)

$X-ray diffraction pattern of ITO nanoparticles.$

ITO (Indium Tin Oxide)

Indium Tin Oxide (ITO) nanoparticles combine excellent electrical conductivity with high optical transparency, making them a key material for next-generation functional coatings and electronic devices. Thanks to their tunable composition (typically In₂O₃:SnO₂ in a 95:5 or 90:10 ratio) and nanoscale size, ITO nanoparticles enable precise control of electrical and optical properties, supporting applications such as transparent conductive films, antistatic coatings, optoelectronic components, smart windows, and advanced sensors.

Properties of our ITOnanoparticles

SOLUTION 1

SOLUTION 2

Size: 10-15 nm

Phase: Hexagonal

Size: ~ 50 nm

Phase: Cubic

SOLUTION 1

Size: 10-15 nm

Phase: Hexagonal

SOLUTION 2

Size: ~ 50 nm

Phase: Cubic

$X-ray diffraction pattern of ITO nanoparticles.$

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