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Product Name | Acetone for pesticide analysis |
Brand | Fisher Chemical |
Volume | 4 L |
Purity | 99.9% |
Grade | HPLC |
Packaging | Glass bottle |
Storage Requirements | Store in a cool, dry place away from direct sunlight |
Shelf Life | 2 years |
CAS Number | 67-64-1 |
Chemical Formula | C3H6O |
Applications | Used for pesticide analysis in agriculture and environmental samples |
FAQ
What is the purpose of using acetone for pesticide analysis?
Acetone is commonly used in pesticide analysis as a solvent for extracting pesticides from various matrices such as soil, water, and plant tissues. It helps to dissolve the pesticides efficiently and separate them from the sample matrix for further analysis.
How does acetone contribute to the accuracy of pesticide analysis?
Acetone is a polar aprotic solvent that is highly effective in extracting a wide range of pesticides with varying polarities. Its high solvating power ensures that pesticides are efficiently extracted from the matrix, leading to accurate and reliable results in pesticide analysis.
What are the advantages of using acetone over other solvents in pesticide analysis?
Acetone is preferred over other solvents in pesticide analysis due to its low cost, high solvating power, and compatibility with a wide range of analytical techniques such as gas chromatography and liquid chromatography. It also evaporates quickly, making it ideal for sample preparation in pesticide analysis.
How should acetone be handled and stored in the laboratory for pesticide analysis?
Acetone should be handled with care in the laboratory as it is flammable and volatile. It should be stored in a well-ventilated area away from heat sources and oxidizing agents. Personal protective equipment such as gloves and goggles should be worn when handling acetone to prevent skin contact or inhalation of vapors.
What are some tips for optimizing the use of acetone in pesticide analysis?
When using acetone for pesticide analysis, it is important to ensure that the solvent is of high purity and free from contaminants that may interfere with the analysis. Properly labeling and storing acetone bottles, as well as using appropriate techniques for sample extraction and analysis, can help to optimize the performance of acetone in pesticide analysis.
Acetone is commonly used in pesticide analysis as a solvent for extracting pesticides from various matrices such as soil, water, and plant tissues. It helps to dissolve the pesticides efficiently and separate them from the sample matrix for further analysis.
How does acetone contribute to the accuracy of pesticide analysis?
Acetone is a polar aprotic solvent that is highly effective in extracting a wide range of pesticides with varying polarities. Its high solvating power ensures that pesticides are efficiently extracted from the matrix, leading to accurate and reliable results in pesticide analysis.
What are the advantages of using acetone over other solvents in pesticide analysis?
Acetone is preferred over other solvents in pesticide analysis due to its low cost, high solvating power, and compatibility with a wide range of analytical techniques such as gas chromatography and liquid chromatography. It also evaporates quickly, making it ideal for sample preparation in pesticide analysis.
How should acetone be handled and stored in the laboratory for pesticide analysis?
Acetone should be handled with care in the laboratory as it is flammable and volatile. It should be stored in a well-ventilated area away from heat sources and oxidizing agents. Personal protective equipment such as gloves and goggles should be worn when handling acetone to prevent skin contact or inhalation of vapors.
What are some tips for optimizing the use of acetone in pesticide analysis?
When using acetone for pesticide analysis, it is important to ensure that the solvent is of high purity and free from contaminants that may interfere with the analysis. Properly labeling and storing acetone bottles, as well as using appropriate techniques for sample extraction and analysis, can help to optimize the performance of acetone in pesticide analysis.