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Product Name | Dichloromethane stabilized with ~ 20 ppm of amylene for pesticide analysis |
Chemical Formula | CH2Cl2 |
Molecular Weight | 84.93 g/mol |
Density | 1.33 g/cm3 |
Boiling Point | -95.3°C |
Melting Point | -96.7°C |
Flash Point | -9°C |
Solubility | Miscible in most organic solvents |
Odor | Sweet, chloroform-like odor |
Purity | 99.8% |
Stabilizer Concentration | ~ 20 ppm of amylene |
FAQ
What is dichloromethane stabilized with ~20 ppm of amylene used for in pesticide
analysis?
Dichloromethane stabilized with ~20 ppm of amylene is commonly used as a solvent in pesticide analysis to extract, isolate, and analyze pesticide residues from various samples such as foods, water, soil, and air.
How does the addition of amylene benefit dichloromethane in pesticide analysis?
The addition of amylene to dichloromethane helps stabilize the solvent by preventing the degradation of the solvent during the analysis process. This stabilization ensures the accuracy and reliability of the pesticide analysis results by maintaining the integrity of the solvent throughout the extraction and analysis procedure.
Is dichloromethane stabilized with ~20 ppm of amylene suitable for all types of pesticides in pesticide analysis?
Dichloromethane stabilized with ~20 ppm of amylene is suitable for a wide range of pesticides commonly analyzed in pesticide residue testing. However, for specific pesticides that may require a different solvent or extraction method, it is recommended to consult with experts or refer to literature for guidance on the most appropriate solvent for extraction and analysis.
How can dichloromethane stabilized with ~20 ppm of amylene be safely handled in pesticide analysis laboratories?
When handling dichloromethane stabilized with ~20 ppm of amylene in pesticide analysis laboratories, it is important to follow proper safety protocols and procedures to ensure the safety of lab personnel and accurate analysis results. This includes working in a well-ventilated area, wearing appropriate personal protective equipment (PPE), and following proper storage and disposal practices for the solvent.
What are the advantages of using dichloromethane stabilized with ~20 ppm of amylene in pesticide analysis compared to other solvents?
Dichloromethane stabilized with ~20 ppm of amylene offers several advantages in pesticide analysis, including its stability, compatibility with a wide range of pesticides, and reliability in extracting and analyzing pesticide residues. Additionally, the presence of amylene helps protect the integrity of the solvent and ensures consistent and accurate results in pesticide analysis applications.
Dichloromethane stabilized with ~20 ppm of amylene is commonly used as a solvent in pesticide analysis to extract, isolate, and analyze pesticide residues from various samples such as foods, water, soil, and air.
How does the addition of amylene benefit dichloromethane in pesticide analysis?
The addition of amylene to dichloromethane helps stabilize the solvent by preventing the degradation of the solvent during the analysis process. This stabilization ensures the accuracy and reliability of the pesticide analysis results by maintaining the integrity of the solvent throughout the extraction and analysis procedure.
Is dichloromethane stabilized with ~20 ppm of amylene suitable for all types of pesticides in pesticide analysis?
Dichloromethane stabilized with ~20 ppm of amylene is suitable for a wide range of pesticides commonly analyzed in pesticide residue testing. However, for specific pesticides that may require a different solvent or extraction method, it is recommended to consult with experts or refer to literature for guidance on the most appropriate solvent for extraction and analysis.
How can dichloromethane stabilized with ~20 ppm of amylene be safely handled in pesticide analysis laboratories?
When handling dichloromethane stabilized with ~20 ppm of amylene in pesticide analysis laboratories, it is important to follow proper safety protocols and procedures to ensure the safety of lab personnel and accurate analysis results. This includes working in a well-ventilated area, wearing appropriate personal protective equipment (PPE), and following proper storage and disposal practices for the solvent.
What are the advantages of using dichloromethane stabilized with ~20 ppm of amylene in pesticide analysis compared to other solvents?
Dichloromethane stabilized with ~20 ppm of amylene offers several advantages in pesticide analysis, including its stability, compatibility with a wide range of pesticides, and reliability in extracting and analyzing pesticide residues. Additionally, the presence of amylene helps protect the integrity of the solvent and ensures consistent and accurate results in pesticide analysis applications.