Indium(III) oxide


Indium oxide is a chemical compound, an amphoteric oxide of indium.

Physical properties

Crystal structure

Amorphous indium oxide is insoluble in water but soluble in acids, whereas crystalline indium oxide is insoluble in both water and acids. The crystalline form exist in two phases, the cubic and rhombohedral. Both phases have a band gap of about 3 eV. The parameters of the cubic phase are listed in the infobox. The rhombohedral phase is produced at high temperatures and pressures or when using non-equilibrium growth methods. It has a space group Rc No. 167, Pearson symbol hR30, a = 0.5487 nm, b = 0.5487 nm, c = 0.57818 nm, Z = 6 and calculated density 7.31 g/cm3.

Conductivity and magnetism

Thin films of chromium-doped indium oxide are a magnetic semiconductor displaying high-temperature ferromagnetism, single-phase crystal structure, and semiconductor behavior with high concentration of charge carriers. It has possible applications in spintronics as a material for spin injectors.
Thin polycrystalline films of indium oxide doped with Zn are highly conductive and even superconductive at helium temperatures. The superconducting transition temperature Tc depends on the doping and film structure and is below 3.3 K.

Synthesis

Bulk samples can be prepared by heating indium hydroxide or the nitrate, carbonate or sulfate.
Thin films of indium oxide can be prepared by sputtering of indium target in argon/oxygen atmosphere. They can be used as diffusion barriers in semiconductors, e.g. to inhibit diffusion between aluminium and silicon.
Monocrystalline nanowires were synthetized from indium oxide by laser ablation, allowing precise diameter control down to 10 nm. Field effect transistors were fabricated from those. Indium oxide nanowires can serve as sensitive and specific redox protein sensors. Sol-gel method is another way to prepare the nanowires.
Indium oxide can serve as a semiconductor material, forming heterojunctions with p-InP, n-GaAs, n-Si, and other materials. A layer of indium oxide on a silicon substrate can be deposited from an indium trichloride solution, a method useful for manufacture of solar cells.

Reactions

When heated to 700 °C, indium oxide forms In2O,, at 2000 °C it decomposes.
It is soluble in acids but not in alkali.
With ammonia at high temperature indium nitride is formed
With K2O and indium metal the compound K5InO4 containing tetrahedral InO45− ions was prepared.
Reacting with a range of metal trioxides produced perovskites for example:

Applications

Indium oxide is used in some types of batteries, thin film infrared reflectors transparent for visible light, some optical coatings, and some antistatic coatings. In combination with tin dioxide, indium oxide forms indium tin oxide, a material used for transparent conductive coatings.
In semiconductors, indium oxide can be used as an n-type semiconductor used as a resistive element in integrated circuits.
In histology, indium oxide is used as a part of some stain formulations.