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Name | Benzene |
Grade | Reag. USP, Ph. Eur. |
Type | Analytical standard |
Purity | ACS grade |
Appearance | Colorless liquid |
Formula | C6H6 |
CAS Number | 71-43-2 |
Molar Mass | 78.11 g/mol |
Melting Point | 5.5 °C |
Boiling Point | 80.1 °C |
Density | 0.8765 g/cm3 |
FAQ
What is Benzene (Reag. USP, Ph. Eur.) and its significance in analysis, ACS, and ISO
standards?
Benzene (Reag. USP, Ph. Eur.) is a chemical compound commonly used in various analytical applications due to its unique properties. It meets the stringent requirements set by the United States Pharmacopeia (USP) and the European Pharmacopoeia (Ph. Eur.), making it suitable for use in pharmaceutical analysis. Additionally, Benzene is in accordance with the standards set by the American Chemical Society (ACS) and the International Organization for Standardization (ISO), ensuring its quality and reliability in analytical chemistry.
How is Benzene (Reag. USP, Ph. Eur.) utilized in analytical chemistry?
Benzene (Reag. USP, Ph. Eur.) is commonly used as a solvent in various analytical techniques such as spectrophotometry, chromatography, and mass spectrometry. Its high purity and low impurity levels make it ideal for applications where accurate and reproducible results are essential. Benzene's stability and inertness also make it a preferred choice for calibrating instruments and preparing standard solutions in analytical chemistry laboratories.
What makes Benzene (Reag. USP, Ph. Eur.) stand out in comparison to other solvents used in analytical chemistry?
Benzene (Reag. USP, Ph. Eur.) stands out due to its high purity, low impurity levels, and adherence to strict quality standards such as USP, Ph. Eur., ACS, and ISO. It is a versatile solvent that can dissolve a wide range of organic compounds, making it suitable for various analytical techniques. Benzene's reliability and consistency in performance make it a preferred choice for analytical chemists who demand precision and accuracy in their work.
What are the key benefits of using Benzene (Reag. USP, Ph. Eur.) in pharmaceutical analysis?
In pharmaceutical analysis, the purity and quality of solvents play a crucial role in ensuring the accuracy and reliability of test results. Benzene (Reag. USP, Ph. Eur.) offers pharmaceutical analysts a solvent that meets the stringent requirements of USP and Ph. Eur., guaranteeing its suitability for use in pharmaceutical applications. Its high purity levels, low impurity content, and compliance with international standards make Benzene an excellent choice for pharmaceutical analysis, where precision and reproducibility are of utmost importance.
How can Benzene (Reag. USP, Ph. Eur.) contribute to the overall quality and performance of analytical processes in various industries?
Benzene (Reag. USP, Ph. Eur.) can contribute significantly to the overall quality and performance of analytical processes in industries such as pharmaceuticals, environmental testing, food and beverage, and research and development. By using a high-quality solvent like Benzene, analysts can ensure the reliability and accuracy of their test results, leading to better decision-making and product development. The adherence to international standards and stringent quality control measures make Benzene a dependable solvent for industries that rely on precise analytical data for their operations.
Benzene (Reag. USP, Ph. Eur.) is a chemical compound commonly used in various analytical applications due to its unique properties. It meets the stringent requirements set by the United States Pharmacopeia (USP) and the European Pharmacopoeia (Ph. Eur.), making it suitable for use in pharmaceutical analysis. Additionally, Benzene is in accordance with the standards set by the American Chemical Society (ACS) and the International Organization for Standardization (ISO), ensuring its quality and reliability in analytical chemistry.
How is Benzene (Reag. USP, Ph. Eur.) utilized in analytical chemistry?
Benzene (Reag. USP, Ph. Eur.) is commonly used as a solvent in various analytical techniques such as spectrophotometry, chromatography, and mass spectrometry. Its high purity and low impurity levels make it ideal for applications where accurate and reproducible results are essential. Benzene's stability and inertness also make it a preferred choice for calibrating instruments and preparing standard solutions in analytical chemistry laboratories.
What makes Benzene (Reag. USP, Ph. Eur.) stand out in comparison to other solvents used in analytical chemistry?
Benzene (Reag. USP, Ph. Eur.) stands out due to its high purity, low impurity levels, and adherence to strict quality standards such as USP, Ph. Eur., ACS, and ISO. It is a versatile solvent that can dissolve a wide range of organic compounds, making it suitable for various analytical techniques. Benzene's reliability and consistency in performance make it a preferred choice for analytical chemists who demand precision and accuracy in their work.
What are the key benefits of using Benzene (Reag. USP, Ph. Eur.) in pharmaceutical analysis?
In pharmaceutical analysis, the purity and quality of solvents play a crucial role in ensuring the accuracy and reliability of test results. Benzene (Reag. USP, Ph. Eur.) offers pharmaceutical analysts a solvent that meets the stringent requirements of USP and Ph. Eur., guaranteeing its suitability for use in pharmaceutical applications. Its high purity levels, low impurity content, and compliance with international standards make Benzene an excellent choice for pharmaceutical analysis, where precision and reproducibility are of utmost importance.
How can Benzene (Reag. USP, Ph. Eur.) contribute to the overall quality and performance of analytical processes in various industries?
Benzene (Reag. USP, Ph. Eur.) can contribute significantly to the overall quality and performance of analytical processes in industries such as pharmaceuticals, environmental testing, food and beverage, and research and development. By using a high-quality solvent like Benzene, analysts can ensure the reliability and accuracy of their test results, leading to better decision-making and product development. The adherence to international standards and stringent quality control measures make Benzene a dependable solvent for industries that rely on precise analytical data for their operations.