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GF65585021

Iridium

wire reel, 0.1m, diameter 0.125mm, as drawn, 99.5%

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Synonym(s):
Iridium, IR005106
Empirical Formula (Hill Notation):
Ir
CAS Number:
Molecular Weight:
192.22
MDL number:
PubChem Substance ID:
NACRES:
NA.23

assay

99.5%

form

wire

manufacturer/tradename

Goodfellow 655-850-21

resistivity

4.71 μΩ-cm

L × diam.

0.1 m × 0.125 mm

bp

4130 °C (lit.)

mp

2450 °C (lit.)

density

22.65 g/cm3 (lit.)

SMILES string

[Ir]

InChI

1S/Ir

InChI key

GKOZUEZYRPOHIO-UHFFFAOYSA-N

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1 of 4

This Item
GF88210447GF26305130GF31863607
Iridium wire reel, 0.1m, diameter 0.125mm, as drawn, 99.5%

GF65585021

Iridium

Iridium wire reel, 0.1m, diameter 0.125mm, as drawn, 99.9%

GF88210447

Iridium

Iridium wire reel, 0.2m, diameter 0.125mm, as drawn, 99.9%

GF26305130

Iridium

Iridium wire reel, 0.1m, diameter 0.25mm, as drawn, 99.9%

GF31863607

Iridium

form

wire

form

wire

form

wire

form

wire

manufacturer/tradename

Goodfellow 655-850-21

manufacturer/tradename

Goodfellow 882-104-47

manufacturer/tradename

Goodfellow 263-051-30

manufacturer/tradename

Goodfellow 318-636-07

bp

4130 °C (lit.)

bp

4130 °C (lit.)

bp

4130 °C (lit.)

bp

4130 °C (lit.)

density

22.65 g/cm3 (lit.)

density

22.65 g/cm3 (lit.)

density

22.65 g/cm3 (lit.)

density

22.65 g/cm3 (lit.)

mp

2450 °C (lit.)

mp

2450 °C (lit.)

mp

2450 °C (lit.)

mp

2450 °C (lit.)

General description

For updated SDS information please visit www.goodfellow.com.

Legal Information

Product of Goodfellow

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S Murahashi et al.
Accounts of chemical research, 33(4), 225-233 (2000-04-25)
The discovery of a new chemical reaction often leads to new applications and new chemical principles. Low-valent ruthenium and iridium hydride complexes are highly useful redox Lewis acid and base catalysts. Nitriles are activated by these catalysts and undergo reactions
Soo Bong Han et al.
Chemical communications (Cambridge, England), (47)(47), 7278-7287 (2009-12-22)
Existing methods for enantioselective carbonyl allylation, crotylation and tert-prenylation require stoichiometric generation of pre-metallated nucleophiles, and often employ stoichiometric chiral modifiers. Under the conditions of transfer hydrogenation employing an ortho-cyclometallated iridium C,O-benzoate catalyst, enantioselective carbonyl allylations, crotylations and tert-prenylations are
Stephen J Roseblade et al.
Accounts of chemical research, 40(12), 1402-1411 (2007-08-04)
Asymmetric hydrogenation is one of the most important catalytic methods for the preparation of optically active compounds. For a long time the range of olefins that could be hydrogenated with high enantiomeric excess was limited to substrates bearing a coordinating
Paolo Tosatti et al.
Organic & biomolecular chemistry, 10(16), 3147-3163 (2012-03-13)
Since their discovery in 1997, iridium-catalysed asymmetric allylic substitutions have been developed into a broadly applicable tool for the synthesis of chiral building blocks via C-C and C-heteroatom bond formation. The remarkable generality of these reactions and the high levels
Henrik Tækker Madsen et al.
Chemosphere, 109, 84-91 (2014-05-31)
Electrochemical oxidation is a promising technique for degradation of otherwise recalcitrant organic micropollutants in waters. In this study, the applicability of electrochemical oxidation was investigated concerning the degradation of the groundwater pollutant 2,6-dichlorobenzamide (BAM) through the electrochemical oxygen transfer process

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