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Name | Thioacetamide (Reag. USP, Ph. Eur.) |
Type | Analytical reagent |
Grade | ACS |
Purity | ≥ 99% |
CAS Number | 62-55-5 |
Molecular Formula | C2H5NS |
Molecular Weight | 75.13 g/mol |
Appearance | White crystalline powder |
Melting Point | 121-123°C |
Boiling Point | 175-176°C |
Solubility | Soluble in water, alcohol |
Storage Conditions | Store in a cool, dry, well-ventilated area away from incompatible substances |
Shelf Life | 2 years |
Usage | Used for analysis in laboratories |
FAQ
What is Thioacetamide (Reag. USP, Ph. Eur.) used for in analysis, ACS?
Thioacetamide is commonly used in various analytical procedures as a reagent to detect certain compounds and ions, as well as in the determination of metals in various samples. It is highly effective in complexometric, titrimetric, and colorimetric analyses, making it a versatile tool for analytical chemists.
How does Thioacetamide (Reag. USP, Ph. Eur.) contribute to analytical procedures in ACS?
Thioacetamide is known for its high selectivity and sensitivity in detecting specific compounds and ions, which makes it a valuable tool in analytical chemistry. Its ability to form colored complexes with metals and other compounds allows for easy visualization and quantification of analytes in various samples.
What are the advantages of using Thioacetamide (Reag. USP, Ph. Eur.) over other reagents in analytical chemistry?
One of the key advantages of using Thioacetamide is its high analytical sensitivity, which allows for the detection of trace amounts of analytes in samples. Additionally, its ease of use and compatibility with different analytical techniques make it a popular choice among chemists for various applications in ACS.
How can Thioacetamide (Reag. USP, Ph. Eur.) be incorporated into different analytical methods in ACS?
Thioacetamide can be used in a wide range of analytical methods, including complexometric titrations, colorimetric analyses, and spectrophotometric determinations. Its versatility allows for its integration into various procedures for the detection and quantification of different analytes in samples.
What precautions should be taken when working with Thioacetamide (Reag. USP, Ph. Eur.) in analytical procedures?
When handling Thioacetamide, it is important to wear appropriate personal protective equipment, such as gloves and safety goggles, to prevent skin and eye contact. Additionally, proper ventilation should be ensured when working with Thioacetamide to avoid inhalation of its vapors. Proper disposal methods should also be followed to minimize environmental impact.
Thioacetamide is commonly used in various analytical procedures as a reagent to detect certain compounds and ions, as well as in the determination of metals in various samples. It is highly effective in complexometric, titrimetric, and colorimetric analyses, making it a versatile tool for analytical chemists.
How does Thioacetamide (Reag. USP, Ph. Eur.) contribute to analytical procedures in ACS?
Thioacetamide is known for its high selectivity and sensitivity in detecting specific compounds and ions, which makes it a valuable tool in analytical chemistry. Its ability to form colored complexes with metals and other compounds allows for easy visualization and quantification of analytes in various samples.
What are the advantages of using Thioacetamide (Reag. USP, Ph. Eur.) over other reagents in analytical chemistry?
One of the key advantages of using Thioacetamide is its high analytical sensitivity, which allows for the detection of trace amounts of analytes in samples. Additionally, its ease of use and compatibility with different analytical techniques make it a popular choice among chemists for various applications in ACS.
How can Thioacetamide (Reag. USP, Ph. Eur.) be incorporated into different analytical methods in ACS?
Thioacetamide can be used in a wide range of analytical methods, including complexometric titrations, colorimetric analyses, and spectrophotometric determinations. Its versatility allows for its integration into various procedures for the detection and quantification of different analytes in samples.
What precautions should be taken when working with Thioacetamide (Reag. USP, Ph. Eur.) in analytical procedures?
When handling Thioacetamide, it is important to wear appropriate personal protective equipment, such as gloves and safety goggles, to prevent skin and eye contact. Additionally, proper ventilation should be ensured when working with Thioacetamide to avoid inhalation of its vapors. Proper disposal methods should also be followed to minimize environmental impact.