Potassium Selenocyanate (CAS 3425-46-5): Properties, Applications, and Key Advantages for Chemical Synthesis

Discover the essential properties and diverse applications of Potassium Selenocyanate, a crucial chemical raw material for pharmaceutical intermediates and advanced energy storage solutions. Learn why it's a valuable component in modern chemical synthesis.

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Advantages of Using Potassium Selenocyanate

High Purity for Precision Synthesis

With a purity of ≥98% and low water content, Potassium Selenocyanate ensures the integrity and efficiency of your chemical reactions, particularly crucial for pharmaceutical intermediates synthesis.

Versatile Application in Energy Storage

Its role as a redox-active electrolyte enhances the performance of carbon-based supercapacitors, making it a key component for advancements in energy storage applications.

Reliable Chemical Raw Material

As a dependable chemical raw material, Potassium Selenocyanate offers consistent quality, supporting stable production cycles and research endeavors.

Key Applications

Chemical Synthesis

Potassium Selenocyanate is instrumental in various organic synthesis pathways, including the conversion of alkyl halides to nitriles, a fundamental step in creating complex molecules. This aligns with the demand for efficient pharmaceutical intermediates synthesis.

Pharmaceutical Intermediates

It serves as a critical precursor for producing pharmaceutical intermediates, contributing to the development of new therapeutic agents and drug manufacturing processes.

Energy Storage Devices

In the field of energy, Potassium Selenocyanate acts as a redox-active electrolyte, significantly enhancing the performance and efficiency of carbon-based supercapacitors.

Material Science Research

Its unique properties also make it valuable in materials science research, including the preparation of selenium-containing compounds for advanced studies.