Back
Product Name | Isooctane for pesticide analysis |
Chemical Formula | C8H18 |
Molecular Weight | 114.23 g/mol |
CAS Number | 540-84-1 |
Boiling Point | 99°C |
Melting Point | -107.4°C |
Density | 0.691 g/cm3 |
Appearance | Colorless liquid |
Solubility | Practically insoluble in water |
Purity | Minimum 99% |
Storage Conditions | Store in a cool, dry place away from direct sunlight |
Applications | Used as a reference standard in pesticide analysis |
Odor | Characteristic gasoline-like odor |
Flammability | Highly flammable |
Toxicity | Low toxicity levels |
Manufacturing Method | Synthesized through isomerization of octane |
FAQ
What is Isooctane and why is it important for pesticide analysis?
Isooctane is a hydrocarbon compound commonly used as a reference standard for pesticide analysis. It is often used as a internal standard in Gas Chromatography-Mass Spectrometry (GC-MS) analysis to help quantify and identify pesticide residues in various samples.
How does Isooctane improve the accuracy and reliability of pesticide analysis?
Isooctane is non-polar and chemically inert, making it an ideal choice as an internal standard for pesticide analysis. By adding a known amount of Isooctane to the sample before analysis, researchers can accurately determine the concentration of pesticides present in the sample. This helps ensure the accuracy and reliability of the analysis results.
What are the benefits of using Isooctane for pesticide analysis compared to other internal standards?
One of the main benefits of using Isooctane as an internal standard for pesticide analysis is its chemical stability and inertness. This means that Isooctane does not react with the pesticides or other compounds in the sample, ensuring that the analysis results are not affected by unwanted chemical reactions. Additionally, Isooctane is readily available, cost-effective, and easy to handle, making it a practical choice for pesticide analysis.
How should Isooctane be used in pesticide analysis to achieve optimal results?
In pesticide analysis, Isooctane is typically added to the sample in a known concentration before analysis using GC-MS. The amount of Isooctane added should be carefully controlled to ensure accurate quantification of the pesticides in the sample. It is important to follow established protocols and procedures for using Isooctane as an internal standard to achieve optimal results in pesticide analysis.
Are there any limitations or considerations to keep in mind when using Isooctane for pesticide analysis?
While Isooctane is a commonly used internal standard for pesticide analysis, researchers should be aware of its limitations and consider certain factors when using it in their analysis. For example, the purity of Isooctane can affect the accuracy of the analysis results, so it is important to use high-quality Isooctane from a reliable source. Additionally, proper storage and handling of Isooctane are essential to prevent contamination and ensure the integrity of the analysis results.
Isooctane is a hydrocarbon compound commonly used as a reference standard for pesticide analysis. It is often used as a internal standard in Gas Chromatography-Mass Spectrometry (GC-MS) analysis to help quantify and identify pesticide residues in various samples.
How does Isooctane improve the accuracy and reliability of pesticide analysis?
Isooctane is non-polar and chemically inert, making it an ideal choice as an internal standard for pesticide analysis. By adding a known amount of Isooctane to the sample before analysis, researchers can accurately determine the concentration of pesticides present in the sample. This helps ensure the accuracy and reliability of the analysis results.
What are the benefits of using Isooctane for pesticide analysis compared to other internal standards?
One of the main benefits of using Isooctane as an internal standard for pesticide analysis is its chemical stability and inertness. This means that Isooctane does not react with the pesticides or other compounds in the sample, ensuring that the analysis results are not affected by unwanted chemical reactions. Additionally, Isooctane is readily available, cost-effective, and easy to handle, making it a practical choice for pesticide analysis.
How should Isooctane be used in pesticide analysis to achieve optimal results?
In pesticide analysis, Isooctane is typically added to the sample in a known concentration before analysis using GC-MS. The amount of Isooctane added should be carefully controlled to ensure accurate quantification of the pesticides in the sample. It is important to follow established protocols and procedures for using Isooctane as an internal standard to achieve optimal results in pesticide analysis.
Are there any limitations or considerations to keep in mind when using Isooctane for pesticide analysis?
While Isooctane is a commonly used internal standard for pesticide analysis, researchers should be aware of its limitations and consider certain factors when using it in their analysis. For example, the purity of Isooctane can affect the accuracy of the analysis results, so it is important to use high-quality Isooctane from a reliable source. Additionally, proper storage and handling of Isooctane are essential to prevent contamination and ensure the integrity of the analysis results.