Mercury(II) thiocyanate is widely utilized in research focused on:
- Analytical Chemistry: It serves as a reagent in various analytical methods, particularly in the detection and quantification of metal ions due to its ability to form stable complexes.
- Organic Synthesis: This compound is used in organic synthesis as a source of thiocyanate ions, which are essential for creating thiocyanate derivatives in pharmaceuticals and agrochemicals.
- Biochemistry: In biochemical research, it acts as a tool for studying enzyme inhibition and protein interactions, helping researchers understand biological pathways and mechanisms.
- Material Science: Mercury(II) thiocyanate is employed in the development of specific materials, including sensors and catalysts, due to its unique chemical properties that enhance performance.
- Educational Purposes: It is often used in laboratory demonstrations and experiments to illustrate chemical reactions, particularly in educational settings to teach students about coordination compounds.
General Information
Properties
Safety and Regulations
Applications
Mercury(II) thiocyanate is widely utilized in research focused on:
- Analytical Chemistry: It serves as a reagent in various analytical methods, particularly in the detection and quantification of metal ions due to its ability to form stable complexes.
- Organic Synthesis: This compound is used in organic synthesis as a source of thiocyanate ions, which are essential for creating thiocyanate derivatives in pharmaceuticals and agrochemicals.
- Biochemistry: In biochemical research, it acts as a tool for studying enzyme inhibition and protein interactions, helping researchers understand biological pathways and mechanisms.
- Material Science: Mercury(II) thiocyanate is employed in the development of specific materials, including sensors and catalysts, due to its unique chemical properties that enhance performance.
- Educational Purposes: It is often used in laboratory demonstrations and experiments to illustrate chemical reactions, particularly in educational settings to teach students about coordination compounds.
Documents
Safety Data Sheets (SDS)
The SDS provides comprehensive safety information on handling, storage, and disposal of the product.
Product Specification (PS)
The PS provides a comprehensive breakdown of the product’s properties, including chemical composition, physical state, purity, and storage requirements. It also details acceptable quality ranges and the product's intended applications.
Certificates of Analysis (COA)
Search for Certificates of Analysis (COA) by entering the products Lot Number. Lot and Batch Numbers can be found on a product’s label following the words ‘Lot’ or ‘Batch’.
Numéro de catalogue
Numéro de lot/série
Certificates Of Origin (COO)
This COO confirms the country where the product was manufactured, and also details the materials and components used in it and whether it is derived from natural, synthetic, or other specific sources. This certificate may be required for customs, trade, and regulatory compliance.
Numéro de catalogue
Numéro de lot/série
Safety Data Sheets (SDS)
The SDS provides comprehensive safety information on handling, storage, and disposal of the product.
DownloadProduct Specification (PS)
The PS provides a comprehensive breakdown of the product’s properties, including chemical composition, physical state, purity, and storage requirements. It also details acceptable quality ranges and the product's intended applications.
DownloadCertificates of Analysis (COA)
Search for Certificates of Analysis (COA) by entering the products Lot Number. Lot and Batch Numbers can be found on a product’s label following the words ‘Lot’ or ‘Batch’.
Numéro de catalogue
Numéro de lot/série
Certificates Of Origin (COO)
This COO confirms the country where the product was manufactured, and also details the materials and components used in it and whether it is derived from natural, synthetic, or other specific sources. This certificate may be required for customs, trade, and regulatory compliance.