GF51827328
Iridium
rod, 25mm, diameter 2.0mm, as drawn, 99.9%
Synonym(s):
Iridium, IR007920
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Assay
99.9%
form
rod
manufacturer/tradename
Goodfellow 518-273-28
resistivity
4.71 μΩ-cm
L × diam.
25 mm × 2.0 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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Low-valent ruthenium and iridium hydride complexes as alternatives to Lewis acid and base catalysts.
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
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
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
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
In vivo (Athens, Greece), 3(4), 285-293 (1989-07-01)
Recent results on the antitumor activity of organometallic compounds of rhodium, iridium, copper and gold are reviewed. Coordination compounds of some organic ligands are also briefly mentioned. The most promising seem to be copper and gold complexes which exhibited remarkable
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