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Name | Bromine (Reag. Ph. Eur.) for analysis, ACS, ISO |
Purity | ≥99.5% |
CAS Number | 7726-95-6 |
Molecular Formula | Br2 |
Molar Mass | 159.808 g/mol |
Appearance | Reddish-brown liquid |
Density | 3.102 g/cm3 |
Boiling Point | 58.8 °C |
Melting Point | -7.2 °C |
Solubility | 15.9 g/L in water |
Storage Conditions | Store in a cool, dry place |
Packaging | Glass bottle |
Shelf Life | 2 years |
Applications | Used in analytical chemistry, laboratory reagent, and organic synthesis |
FAQ
What is Bromine (Reag. Ph. Eur.) used for in analysis, ACS, and ISO
applications?
Bromine (Reag. Ph. Eur.) is a high-quality chemical reagent commonly used in analytical chemistry, as well as in ACS (American Chemical Society) and ISO (International Organization for Standardization) certified laboratories. It is primarily used for various analysis methods, including titrations, spectrophotometry, and chromatography.
How is Bromine (Reag. Ph. Eur.) different from other bromine compounds on the market?
Bromine (Reag. Ph. Eur.) is a standardized form of bromine that meets the strict requirements of the European Pharmacopoeia (Ph. Eur.). This ensures its purity, quality, and consistency, making it ideal for use in analytical applications where accuracy and reliability are essential. Additionally, its compliance with ACS and ISO standards further confirms its suitability for use in high-precision experiments and testing procedures.
What are some key features and benefits of using Bromine (Reag. Ph. Eur.) in laboratory analysis?
Some key features and benefits of using Bromine (Reag. Ph. Eur.) in laboratory analysis include:
- High purity and quality, meeting stringent Ph. Eur. standards
- Consistent performance and reliability in analytical procedures
- Compliance with ACS and ISO requirements for analytical use
- Suitable for a wide range of analysis techniques, including titrations and spectrophotometry
- Available in convenient packaging options for easy handling and storage in the laboratory
How should Bromine (Reag. Ph. Eur.) be stored and handled to ensure its longevity and effectiveness?
Bromine (Reag. Ph. Eur.) should be stored in a cool, dry place away from direct sunlight, heat, and incompatible substances. It is recommended to keep the container tightly closed when not in use to prevent contamination or degradation. Proper handling procedures, including wearing appropriate personal protective equipment, should be followed to ensure safety and minimize the risk of exposure. Additionally, regular inspections of the reagent for any signs of deterioration or impurities are recommended to maintain its quality and effectiveness in laboratory analysis.
In what analytical applications can Bromine (Reag. Ph. Eur.) be most beneficial and reliable for accurate results?
Bromine (Reag. Ph. Eur.) can be most beneficial and reliable in analytical applications where precision, accuracy, and consistency are crucial for obtaining accurate results. Some examples include:
- Titration experiments for determining the concentration of a substance in a sample
- Spectrophotometric analysis for measuring the absorbance or transmission of light by a sample
- Chromatographic separations for identifying and quantifying different components in a mixture
- Quality control testing in pharmaceutical, environmental, and industrial laboratories
- Research and development studies requiring high-quality reagents for rigorous analysis and validation purposes.
Bromine (Reag. Ph. Eur.) is a high-quality chemical reagent commonly used in analytical chemistry, as well as in ACS (American Chemical Society) and ISO (International Organization for Standardization) certified laboratories. It is primarily used for various analysis methods, including titrations, spectrophotometry, and chromatography.
How is Bromine (Reag. Ph. Eur.) different from other bromine compounds on the market?
Bromine (Reag. Ph. Eur.) is a standardized form of bromine that meets the strict requirements of the European Pharmacopoeia (Ph. Eur.). This ensures its purity, quality, and consistency, making it ideal for use in analytical applications where accuracy and reliability are essential. Additionally, its compliance with ACS and ISO standards further confirms its suitability for use in high-precision experiments and testing procedures.
What are some key features and benefits of using Bromine (Reag. Ph. Eur.) in laboratory analysis?
Some key features and benefits of using Bromine (Reag. Ph. Eur.) in laboratory analysis include:
- High purity and quality, meeting stringent Ph. Eur. standards
- Consistent performance and reliability in analytical procedures
- Compliance with ACS and ISO requirements for analytical use
- Suitable for a wide range of analysis techniques, including titrations and spectrophotometry
- Available in convenient packaging options for easy handling and storage in the laboratory
How should Bromine (Reag. Ph. Eur.) be stored and handled to ensure its longevity and effectiveness?
Bromine (Reag. Ph. Eur.) should be stored in a cool, dry place away from direct sunlight, heat, and incompatible substances. It is recommended to keep the container tightly closed when not in use to prevent contamination or degradation. Proper handling procedures, including wearing appropriate personal protective equipment, should be followed to ensure safety and minimize the risk of exposure. Additionally, regular inspections of the reagent for any signs of deterioration or impurities are recommended to maintain its quality and effectiveness in laboratory analysis.
In what analytical applications can Bromine (Reag. Ph. Eur.) be most beneficial and reliable for accurate results?
Bromine (Reag. Ph. Eur.) can be most beneficial and reliable in analytical applications where precision, accuracy, and consistency are crucial for obtaining accurate results. Some examples include:
- Titration experiments for determining the concentration of a substance in a sample
- Spectrophotometric analysis for measuring the absorbance or transmission of light by a sample
- Chromatographic separations for identifying and quantifying different components in a mixture
- Quality control testing in pharmaceutical, environmental, and industrial laboratories
- Research and development studies requiring high-quality reagents for rigorous analysis and validation purposes.