12036-35-0 | Rhodium oxide

Packsize	Purity	Availability	Price	Discounted Price
500mg	99%	in stock	$2,312.00	$1,619.00
2g	99%	in stock	$6,846.00	$4,792.00

Description

• Catalog Number: AB46985
• Chemical Name: Rhodium oxide
• CAS Number: 12036-35-0
• Molecular Formula: ORh
• Molecular Weight: 118.9049
• MDL Number: MFCD00011205
• SMILES: O=[Rh]

Upstream Synthesis Route

Application of Rhodium Oxide in Chemical Synthesis:

Rhodium oxide, a versatile compound, plays a crucial role in various chemical synthesis processes due to its unique properties and reactivity. One significant application of rhodium oxide in chemical synthesis is its use as a catalyst in organic transformations. Rhodium oxide catalysts are highly effective in promoting a variety of reactions, including hydrogenation, oxidation, and C-C bond formation. The ability of rhodium oxide catalysts to activate and stabilize intermediate species significantly accelerates the reaction rates and improves the overall yield of the desired products.In organic synthesis, rhodium oxide catalysts are particularly valuable in the preparation of fine chemicals, pharmaceuticals, and agrochemicals. By facilitating selective reactions and enabling the synthesis of complex molecular structures, rhodium oxide contributes to the efficient production of high-value compounds. Additionally, rhodium oxide catalysts are employed in industrial processes such as the production of acetic acid and methanol, where their high activity and selectivity are essential for achieving optimal process conditions.Moreover, rhodium oxide catalysts are utilized in the synthesis of various organic compounds, including aldehydes, ketones, and carboxylic acids, by enabling key transformations such as hydroformylation, hydrogenation, and oxidation reactions. The tunability of rhodium oxide catalysts allows chemists to control the selectivity and efficiency of these transformations, making them invaluable tools in modern synthetic chemistry.Overall, the application of rhodium oxide in chemical synthesis is integral to advancing the field of organic chemistry, enabling scientists to develop new synthetic methodologies, improve existing processes, and access a diverse range of valuable compounds with high precision and efficiency.