Hexarhodium(0) Hexadecacarbonyl: A Powerful Rhodium Catalyst for Organic Synthesis
Discover the catalytic prowess of Rh6(CO)16, a vital rhodium metal catalyst for advanced chemical transformations.
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Hexarhodium Hexadecacarbonyl
Hexarhodium(0) hexadecacarbonyl (Rh6(CO)16) is a highly effective rhodium metal catalyst, crucial for various organic synthesis processes. Its unique structure and high rhodium content make it invaluable in catalytic applications.
- Explore the use of Hexarhodium(0) Hexadecacarbonyl catalyst in advanced organic synthesis processes. Understanding the catalytic capabilities of Rh6(CO)16 is key for researchers in the field.
- Investigate the hydroformylation of alkenes using Rh6(CO)16 as a premier rhodium metal catalyst. This process is fundamental in converting olefins into valuable aldehydes.
- Learn about the chemical properties of the compound with CAS 28407-51-4. Detailed analysis of its solubility and stability informs its application scope.
- Source high purity Hexarhodium(0) Hexadecacarbonyl for your laboratory needs. High purity ensures consistent and reliable catalytic performance in demanding reactions.
Key Advantages
High Rhodium Content
Boasting a minimum of 57.9% Rhodium, this catalyst offers significant catalytic activity, making it a cost-effective choice for industrial applications requiring potent rhodium metal catalysts.
Versatile Catalytic Applications
The efficacy of Hexarhodium(0) Hexadecacarbonyl in the hydroformylation of alkenes highlights its role as a versatile catalyst in organic synthesis. Explore its potential in other Rh6(CO)16 organic synthesis reactions.
Stable and Easy to Handle
Presented as a crystalline powder, this compound offers relative stability under recommended storage conditions, simplifying its handling and application in catalytic processes.
Key Applications
Hydroformylation
A primary application is the hydroformylation of alkenes, a critical process where this rhodium metal catalyst facilitates the addition of carbon monoxide and hydrogen to olefins.
Organic Synthesis
Beyond hydroformylation, it serves as a potent catalyst in broader organic synthesis, enabling complex chemical transformations with high efficiency.
Homogeneous Catalysis
As a metal carbonyl cluster, it operates effectively in homogeneous catalysis, providing a controlled reaction environment for various chemical syntheses.
Research and Development
Researchers utilize Hexarhodium(0) Hexadecacarbonyl to explore novel catalytic pathways and develop new synthetic methodologies in organometallic chemistry.