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Chemical Name | Periodic Acid |
Abbreviation | Reag. USP, Ph. Eur. |
Grade | ACS product |
Purity | high purity grade |
Appearance | white crystalline powder |
Molecular Formula | H5IO6 |
Molecular Weight | 227.94 g/mol |
Solubility | soluble in water |
Storage Condition | store in a cool, dry place |
Applications | used as an oxidizing agent in organic synthesis |
Risk Phrases | May cause skin and eye irritation |
Safety Precautions | Wear protective gloves and eye protection |
Shelf Life | 2 years |
FAQ
What is Periodic Acid (Reag. USP, Ph. Eur.) used for in analysis, ACS?
Periodic Acid (Reag. USP, Ph. Eur.) is commonly used in analytical chemistry for various applications, including oxidation reactions and as a reagent for certain analytical tests. It is particularly useful in the assessment of certain functional groups in organic compounds.
How is Periodic Acid (Reag. USP, Ph. Eur.) utilized in ACS analysis?
Periodic Acid (Reag. USP, Ph. Eur.) is utilized in ACS analysis as a strong oxidizing agent to cleave certain diols, convert alcohols to aldehydes or ketones, and oxidize glycols to carbonyl compounds. It is also employed in the qualitative analysis of certain functional groups, such as vicinal diols.
What are the benefits of using Periodic Acid (Reag. USP, Ph. Eur.) in analytical chemistry?
Periodic Acid (Reag. USP, Ph. Eur.) offers several benefits in analytical chemistry, including its high reactivity as an oxidizing agent, its specificity in targeting certain functional groups, and its compatibility with a wide range of organic compounds. Additionally, it is relatively easy to handle and provides consistent results in various analytical tests.
Are there any precautions or safety measures to consider when working with Periodic Acid (Reag. USP, Ph. Eur.) in ACS analysis?
Yes, it is essential to exercise caution when working with Periodic Acid (Reag. USP, Ph. Eur.) due to its strong oxidizing properties. It is recommended to wear appropriate personal protective equipment, such as gloves and safety goggles, and to work in a well-ventilated area to minimize exposure to fumes. Additionally, it is important to store Periodic Acid (Reag. USP, Ph. Eur.) in a cool, dry place away from incompatible materials.
In what other areas of analysis or research can Periodic Acid (Reag. USP, Ph. Eur.) be applied?
Periodic Acid (Reag. USP, Ph. Eur.) can also be applied in research areas such as polymer chemistry, carbohydrate analysis, and the study of organic compounds with vicinal diols or other suitable functional groups. Its versatile reactivity and specificity make it a valuable reagent for various analytical and research purposes.
Periodic Acid (Reag. USP, Ph. Eur.) is commonly used in analytical chemistry for various applications, including oxidation reactions and as a reagent for certain analytical tests. It is particularly useful in the assessment of certain functional groups in organic compounds.
How is Periodic Acid (Reag. USP, Ph. Eur.) utilized in ACS analysis?
Periodic Acid (Reag. USP, Ph. Eur.) is utilized in ACS analysis as a strong oxidizing agent to cleave certain diols, convert alcohols to aldehydes or ketones, and oxidize glycols to carbonyl compounds. It is also employed in the qualitative analysis of certain functional groups, such as vicinal diols.
What are the benefits of using Periodic Acid (Reag. USP, Ph. Eur.) in analytical chemistry?
Periodic Acid (Reag. USP, Ph. Eur.) offers several benefits in analytical chemistry, including its high reactivity as an oxidizing agent, its specificity in targeting certain functional groups, and its compatibility with a wide range of organic compounds. Additionally, it is relatively easy to handle and provides consistent results in various analytical tests.
Are there any precautions or safety measures to consider when working with Periodic Acid (Reag. USP, Ph. Eur.) in ACS analysis?
Yes, it is essential to exercise caution when working with Periodic Acid (Reag. USP, Ph. Eur.) due to its strong oxidizing properties. It is recommended to wear appropriate personal protective equipment, such as gloves and safety goggles, and to work in a well-ventilated area to minimize exposure to fumes. Additionally, it is important to store Periodic Acid (Reag. USP, Ph. Eur.) in a cool, dry place away from incompatible materials.
In what other areas of analysis or research can Periodic Acid (Reag. USP, Ph. Eur.) be applied?
Periodic Acid (Reag. USP, Ph. Eur.) can also be applied in research areas such as polymer chemistry, carbohydrate analysis, and the study of organic compounds with vicinal diols or other suitable functional groups. Its versatile reactivity and specificity make it a valuable reagent for various analytical and research purposes.