Indium(III) antimonide

Indium(III) antimonide Basic information

Product Name:	Indium(III) antimonide
Synonyms:	INDIUM ANTIMONIDE;indiumcompd.withantimony(1:1);Indium antimonide (99.99%-In) PURATREM;Indiumantimonideblackxtl;indium stibide;INDIUM ANTIMONIDE, 99.99+%;Indium antimonide, 99.5%;INDIUM ANTIMONIDE, 99.999%
CAS:	1312-41-0
MF:	InSb
MW:	236.58
EINECS:	215-192-3
Product Categories:	Inorganics;Alloys;Materials Science;Metal and Ceramic Science;inorganic compound;Ceramic Science;Indium;Materials Science;Metal &;Metal and Ceramic Science;Metals;New Products for Materials Research and Engineering
Mol File:	1312-41-0.mol

Indium(III) antimonide Chemical Properties

Melting point	535°C
density	5,76 g/cm³
form	crystal
Specific Gravity	5.76
color	black
Water Solubility	Insoluble in water.
Crystal Structure	Cubic, Sphalerite Structure - Space Group F(-4)3m
Merck	14,4948
Exposure limits	ACGIH: TWA 0.5 mg/m3; TWA 0.1 mg/m3 NIOSH: IDLH 50 mg/m3; TWA 0.5 mg/m3; TWA 0.1 mg/m3
CAS DataBase Reference	1312-41-0(CAS DataBase Reference)
EPA Substance Registry System	Antimony, compd. with indium (1:1) (1312-41-0)

Safety Information

Hazard Codes	Xn,N
Risk Statements	20/22-51/53
Safety Statements	61
RIDADR	UN 1549 6.1/PG 3
WGK Germany	2
RTECS	NL1105000
TSCA	Yes
HazardClass	6.1
PackingGroup	III
HS Code	2853909090

MSDS Information

Provider	Language
SigmaAldrich	English
ALFA	English

Indium(III) antimonide Usage And Synthesis

Chemical Properties	Crystalline solid.
Physical properties	Black cubic crystal; zincblende structure; density 5.775 g/cm3; melts at525°C; density of melt 6.48 g/mL; dielectric constant 15.9; insoluble in water.
Uses	Indium antimonide finds use in infrared detectors, including FLIR systems, thermal imaging cameras, infrared astronomy and in infrared homing missile guidance systems, in fast transistors. It is used in thermal image detectors using photo-electromagnetic detectors or photodiodes.
Uses	Crystal structure: Zinc blende structure, cubic
Uses	In semiconductor electronics. Grown p-n junctions(Indium(III) antimonide) have been made by doping a melt with an acceptor impurity such as zinc or cadmium, and dipping in an n-type crystal. Rate-grown junctions have also been made. Broad-area surface junctions have been produced by out-diffusing antimony in vacuum from the surface of an n-type crystal, producing a p-n junction just inside the surface. Also has photoconductive, photoelectromagnetic, and magnetoresistive properties. Useful as an infrared detector and filter, and in Hall effect devices.
Production Methods	Intermetallic semiconductors of indium are formed from group III and group V elements, requiring very high purity of the elements (0.1 ppm).
Preparation	Indium antimonide may be synthesized from its elements by fusion of sto-ichiometric amounts of indium and antimony at elevated temperatures in anevacuated, sealed ampule.
General Description	This product has been enhanced for energy efficiency.
Hazard	See indium; antimony.

Indium(III) antimonide Preparation Products And Raw materials

INDIUM ACETATE INDIUM(I) CHLORIDE GALLIUM NITRIDE INDIUM FLUORIDE Lead(II) iodide LEAD ANTIMONIDE Indium chloride INDIUM(I) BROMIDE INDIUM(III) BROMIDE INDIUM(I) IODIDE TUNGSTEN SELENIDE GALLIUM ANTIMONIDE NICKEL ANTIMONIDE CADMIUM ANTIMONIDE Gallium arsenide Indium(III) antimonide INDIUM NITRATE Indium

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