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Catalog Number:
33424
CAS Number:
12148-71-9
Di-μ-méthoxobis(1,5-cyclooctadiène)diiridium(I)
Purity:
≥ 98%
Synonym(s):
Dimère de (1,5-cyclooctadiène)(méthoxy)iridium(I), Bis(1,5-cyclooctadiène)di-μ-méthoxydiiridium(I)
Documents
$130.00 /250 mg
Taille
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Product Information

Conserver sous atmosphère inerte. Le dimère méthoxy(cyclooctadiène)iridium(I) est utilisé comme catalyseur dans la préparation de systèmes cycliques indoles fusionnés hétéroaryle et dans la borylation et le couplage Suzuki-miyaura.

Synonyms
Dimère de (1,5-cyclooctadiène)(méthoxy)iridium(I), Bis(1,5-cyclooctadiène)di-μ-méthoxydiiridium(I)
CAS Number
12148-71-9
Purity
≥ 98%
Molecular Formula
C 18 H 30 Ir 2 O 2
Molecular Weight
662.86
MDL Number
MFCD08459360
PubChem ID
76001521
Melting Point
154 - 177 ?C
Appearance
Jaune moutarde solide
Conditions
Conserver à ≤ -20 °C
General Information
Synonyms
Dimère de (1,5-cyclooctadiène)(méthoxy)iridium(I), Bis(1,5-cyclooctadiène)di-μ-méthoxydiiridium(I)
CAS Number
12148-71-9
Purity
≥ 98%
Molecular Formula
C 18 H 30 Ir 2 O 2
Molecular Weight
662.86
MDL Number
MFCD08459360
PubChem ID
76001521
Melting Point
154 - 177 ?C
Appearance
Jaune moutarde solide
Conditions
Conserver à ≤ -20 °C
Properties
Additional property information coming soon!
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Safety and Regulations
Hazmat
Non
Antibiotic
Non
DEA-regulated
Non
Warnings
-
Applications

Di-m-methoxobis(1,5-cyclooctadiene)diiridium(I) is widely utilized in research focused on:

  • Catalysis: This compound serves as a catalyst in various organic reactions, enhancing reaction rates and improving yields, which is crucial for the development of pharmaceuticals and fine chemicals.
  • Material Science: It is used in the synthesis of novel materials, particularly in the creation of advanced polymers and composites, offering improved mechanical properties and thermal stability.
  • Electrochemistry: The compound plays a significant role in electrochemical applications, such as in the development of fuel cells and batteries, where it helps in improving energy efficiency and storage capacity.
  • Photochemistry: It is involved in photochemical reactions, particularly in the field of photodynamic therapy for cancer treatment, where it can enhance the effectiveness of light-activated drugs.
  • Research and Development: This chemical is a valuable tool in academic and industrial research settings, facilitating the exploration of new chemical pathways and the development of innovative technologies.

Citations