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289418

Sigma-Aldrich

Indium(III) oxide

99.99% trace metals basis

Sinónimos:

Diindium trioxide, Indium sesquioxide

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About This Item

Fórmula empírica (notación de Hill):
In2O3
Número de CAS:
1312-43-2
Peso molecular:
277.63
EC Number:
215-193-9
MDL number:
MFCD00011060
UNSPSC Code:
12352303
PubChem Substance ID:
24857196
NACRES:
NA.23

vapor pressure

<0.01 mmHg ( 25 °C)

Quality Level

100

assay

99.99% trace metals basis

form

powder

reaction suitability

reagent type: catalyst
core: indium

density

7.18 g/mL at 25 °C (lit.)

application(s)

battery manufacturing

SMILES string

O=[In]O[In]=O

InChI

1S/2In.3O

InChI key

SHTGRZNPWBITMM-UHFFFAOYSA-N

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General description

Indium(III)oxide, also known as indium sesquioxide or In2O3. It is athermally stable compound, suitable for use in glass, optic, and ceramic applications.Indium oxide is also commonly doped with tin oxide (SnO2) to produce indium tinoxide (ITO), which is used in transparent thin conductive films for displays,energy-efficient windows, and photovoltaics. Indium oxide-based catalysts are alsoused in various catalytic applications including CO2 hydrogenation, directconversion of syngas into light olefins, and conversion of meso-epoxide intochiral β-amino alcohols.

Application

  • Comparative analysis on application conditions of indium (III) oxide-reinforced glasses in nuclear waste management and source transportation: A Monte Carlo study: This research explores the use of indium (III) oxide-reinforced glass for radioactive waste containment, highlighting its effectiveness and potential in nuclear waste management (ALMisned et al., 2023).
  • Double-shelled hollow rods assembled from nitrogen/sulfur-codoped carbon coated indium oxide nanoparticles as excellent photocatalysts: Discusses the synthesis and application of indium oxide nanoparticles in photocatalysis, demonstrating significant enhancements in environmental cleanup technologies (Sun et al., 2019).
  • Black indium oxide a photothermal CO2 hydrogenation catalyst: Investigates black indium oxide for its use in photocatalytic CO2 reduction, a critical process for sustainable energy and chemical synthesis (Wang et al., 2020).
  • Material proposal for 2D indium oxide: This study proposes two-dimensional indium oxide, discussing its material characteristics and potential applications in electronics and optoelectronics (Kakanakova-Georgieva et al., 2021).
  • Purification of indium by solvent extraction with undiluted ionic liquids: Examines the processes of extracting and purifying indium using green chemistry approaches, contributing to more sustainable practices in materials processing (Deferm et al., 2016).

Storage Class

11 - Combustible Solids

wgk_germany

WGK 3

flash_point_f

Not applicable

flash_point_c

Not applicable

ppe

dust mask type N95 (US), Eyeshields, Gloves

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Certificados de análisis (COA)

Lot/Batch Number
MKCW2048
0000252077
MKCT6641
MKCQ7548
MKCP2405

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Kelvin H L Zhang et al.
ACS nano, 6(8), 6717-6729 (2012-06-30)
The growth of In(2)O(3) on cubic Y-stabilized ZrO(2)(001) by molecular beam epitaxy leads to formation of nanoscale islands which may tilt relative to the substrate in order to help accommodate the 1.7% tensile mismatch between the epilayer and the substrate.
Ilan Jen-La Plante et al.
Small (Weinheim an der Bergstrasse, Germany), 9(1), 56-60 (2012-11-06)
Nano popcorn: a new formation mechanism for the synthesis of hollow metal oxide nanoparticles through a melt fracture mechanism. The hollow nanoparticles are formed via brittle fracture following the generation of tensile stresses arising due to liquid-phase thermal expansion of
Wen-Ku Chang et al.
Nanomedicine : nanotechnology, biology, and medicine, 8(5), 609-617 (2011-10-29)
Antibacterial activity of photocatalytic substrates is primarily induced by ultraviolet light irradiation. Visible light-responsive photocatalysts were recently discovered, offering greater opportunity to use photocatalysts as disinfectants in our living environment. The development of antibacterial photocatalysts, however, has mainly focused on
Yiping Fang et al.
Langmuir : the ACS journal of surfaces and colloids, 27(23), 14091-14095 (2011-10-21)
In(2)O(3)@SiO(2) core-shell nanoparticles were prepared using an organic solution synthesis approach and reverse-microemulsion technique. In order to explore the availability of various silica encapsulations, a partial phase diagram for this ternary system consisting of hexane/cyclohexane (1:29 wt), surfactant (polyoxyethylene(5)nonylphenyl ether
Mareike V Hohmann et al.
Journal of physics. Condensed matter : an Institute of Physics journal, 23(33), 334203-334203 (2011-08-05)
The ionization potentials of In(2)O(3) films grown epitaxially by magnetron sputtering on Y-stabilized ZrO(2) substrates with (100) and (111) surface orientation are determined using photoelectron spectroscopy. Epitaxial growth is verified using x-ray diffraction. The observed ionization potentials, which directly affect
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