Hexaammineruthenium(III) Chloride: Properties, Applications, and Use as a Precious Metal Catalyst
Discover the versatile properties and critical applications of Hexaammineruthenium(III) Chloride, a key precious metal catalyst.
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Hexaammineruthenium(III) Chloride
Hexaammineruthenium(III) Chloride is a vital chemical compound, primarily recognized for its role as a precious metal catalyst. Its unique structure and chemical behavior make it indispensable in various advanced chemical processes, contributing significantly to scientific research and industrial applications. This compound is essential for driving complex reactions with high efficiency and selectivity.
- As a precious metal catalyst, Hexaammineruthenium(III) Chloride drives numerous chemical reactions, making it a cornerstone in modern synthesis.
- Explore the chemical properties of Hexaammineruthenium(III) Chloride, including its molecular formula (Cl3H18N6Ru) and molecular weight (309.61), which dictate its reactivity and applications.
- Investigate its use in photoreduction and photooxidation, where this ruthenium compound acts as a key mediator in light-driven chemical transformations.
- Understand the significance of the light yellow powder appearance of Hexaammineruthenium(III) Chloride in quality assessment and handling procedures.
Advantages Provided by the Product
Catalytic Efficiency
Leverage the high catalytic efficiency of Hexaammineruthenium(III) Chloride for improved reaction yields and reduced processing times in chemical synthesis.
Versatile Applications
Benefit from the versatility of this ruthenium compound in diverse fields like electrochemistry and photochemical reactions, enabling innovation across sectors.
High Purity
Ensure reliable and reproducible results with the high purity (99% min) of Hexaammineruthenium(III) Chloride, critical for sensitive chemical processes and research.
Key Applications
Precious Metal Catalysis
Hexaammineruthenium(III) Chloride serves as a crucial precious metal catalyst, facilitating a wide array of organic transformations and industrial synthesis processes.
Photochemistry
Its role in photoreduction and photooxidation makes it valuable for light-induced chemical reactions, opening avenues in energy and materials science.
Electrochemistry
Utilized in electrochemical studies and device development, its properties aid in creating advanced sensors and analytical tools.
Specialty Chemical Synthesis
As a high-purity chemical reagent, it is essential for the precise synthesis of complex molecules and specialty chemicals.
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