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Name | Isooctane (Reag. USP, Ph. Eur.) |
Molecular Formula | C8H18 |
Molecular Weight | 114.23 |
Appearance | Colorless liquid |
Boiling Point | 99-100°C |
Melting Point | -107.4°C |
Density | 0.692 g/mL at 25°C |
Purity | ≥99% |
Solubility | Practically insoluble in water |
Storage Conditions | Store in a cool, dry place |
Usage | Commonly used as a reference standard in gasoline analysis |
FAQ
What is Isooctane (Reag. USP, Ph. Eur.) and how is it used for analysis?
Isooctane is a high-quality analytical reagent used for various chemical analyses, particularly in laboratories and research settings. It meets the standards set by the United States Pharmacopeia (USP) and European Pharmacopoeia (Ph. Eur.) for purity and quality, ensuring reliable results in analytical procedures.
What are the key characteristics of Isooctane (Reag. USP, Ph. Eur.) that make it suitable for analytical purposes?
Isooctane is a clear, colorless liquid with a specific gravity similar to that of octane. It has a high degree of purity, with minimal impurities that could interfere with analytical testing. Additionally, Isooctane has a low boiling point, making it easy to handle and evaporate during analytical processes.
How is Isooctane (Reag. USP, Ph. Eur.) typically used in analytical chemistry, particularly in the field of ACS?
Isooctane is commonly used as a reference standard in gas chromatography and other analytical techniques to determine the octane rating of fuels. It is also employed as a solvent or diluent in various chemical reactions and separations. In the field of ACS (American Chemical Society), Isooctane plays a crucial role in ensuring accurate and reproducible results in analytical experiments.
What are the benefits of using Isooctane (Reag. USP, Ph. Eur.) for analysis compared to other similar substances?
Isooctane offers several advantages over other substances commonly used in analytical chemistry. Its high purity and low impurity levels make it a reliable choice for sensitive analyses where accuracy is paramount. Additionally, Isooctane's well-defined properties and consistent performance make it a preferred option for standardization and calibration purposes.
Are there any special storage or handling considerations for Isooctane (Reag. USP, Ph. Eur.) to ensure its quality and stability for analytical use?
It is essential to store Isooctane in a cool, dry place away from sources of heat or ignition to prevent evaporation or degradation. Proper sealing of containers and minimizing exposure to air can help maintain the quality and stability of Isooctane for extended periods. Additionally, handling Isooctane in a well-ventilated area and following recommended safety precautions is crucial to ensure a safe and effective analytical process.
Isooctane is a high-quality analytical reagent used for various chemical analyses, particularly in laboratories and research settings. It meets the standards set by the United States Pharmacopeia (USP) and European Pharmacopoeia (Ph. Eur.) for purity and quality, ensuring reliable results in analytical procedures.
What are the key characteristics of Isooctane (Reag. USP, Ph. Eur.) that make it suitable for analytical purposes?
Isooctane is a clear, colorless liquid with a specific gravity similar to that of octane. It has a high degree of purity, with minimal impurities that could interfere with analytical testing. Additionally, Isooctane has a low boiling point, making it easy to handle and evaporate during analytical processes.
How is Isooctane (Reag. USP, Ph. Eur.) typically used in analytical chemistry, particularly in the field of ACS?
Isooctane is commonly used as a reference standard in gas chromatography and other analytical techniques to determine the octane rating of fuels. It is also employed as a solvent or diluent in various chemical reactions and separations. In the field of ACS (American Chemical Society), Isooctane plays a crucial role in ensuring accurate and reproducible results in analytical experiments.
What are the benefits of using Isooctane (Reag. USP, Ph. Eur.) for analysis compared to other similar substances?
Isooctane offers several advantages over other substances commonly used in analytical chemistry. Its high purity and low impurity levels make it a reliable choice for sensitive analyses where accuracy is paramount. Additionally, Isooctane's well-defined properties and consistent performance make it a preferred option for standardization and calibration purposes.
Are there any special storage or handling considerations for Isooctane (Reag. USP, Ph. Eur.) to ensure its quality and stability for analytical use?
It is essential to store Isooctane in a cool, dry place away from sources of heat or ignition to prevent evaporation or degradation. Proper sealing of containers and minimizing exposure to air can help maintain the quality and stability of Isooctane for extended periods. Additionally, handling Isooctane in a well-ventilated area and following recommended safety precautions is crucial to ensure a safe and effective analytical process.