Back
Name | Water for LC-MS |
Type | LC-MS grade water |
Purity | high purity |
Purification Method | reverse osmosis |
Quality Control | tested for LC-MS applications |
Packaging | glass bottle |
Volume | 1 liter |
PH | neutral |
Solvent Compatibility | suitable for LC-MS analysis |
Storage Conditions | store at room temperature |
Manufacturer | major laboratory supplier |
FAQ
What is the importance of using Water for LC-MS in analytical chemistry?
Using high-quality water for LC-MS is crucial in maintaining the accuracy and reliability of analytical results. By eliminating contaminants and impurities present in regular tap water, Water for LC-MS ensures the purity of samples and prevents interference with the analytical process.
How does Water for LC-MS differ from regular laboratory water?
Water for LC-MS undergoes additional purification steps to achieve higher levels of purity compared to regular laboratory water. It is specially treated to remove impurities that could negatively impact the performance of LC-MS instruments and compromise the accuracy of analytical results.
What are some common contaminants found in tap water that can affect LC-MS analysis?
Tap water often contains various contaminants such as organic compounds, particulates, ions, and bacteria that can interfere with LC-MS analysis. These impurities can lead to baseline noise, reduced sensitivity, and poor chromatographic performance, ultimately affecting the quality of analytical data.
How does using Water for LC-MS benefit analytical laboratories?
Using Water for LC-MS helps analytical laboratories achieve better detection limits, higher sensitivity, and improved chromatographic resolution in their analyses. By providing a clean and reliable source of water, it enhances the overall quality and reproducibility of analytical results, leading to more accurate and trustworthy data.
What factors should be considered when selecting a Water for LC-MS system?
When selecting a Water for LC-MS system, it is essential to consider factors such as the level of purity required for the specific application, the water quality standards of the analytical method, the capacity and efficiency of the purification system, and the overall cost-effectiveness of the solution.
Using high-quality water for LC-MS is crucial in maintaining the accuracy and reliability of analytical results. By eliminating contaminants and impurities present in regular tap water, Water for LC-MS ensures the purity of samples and prevents interference with the analytical process.
How does Water for LC-MS differ from regular laboratory water?
Water for LC-MS undergoes additional purification steps to achieve higher levels of purity compared to regular laboratory water. It is specially treated to remove impurities that could negatively impact the performance of LC-MS instruments and compromise the accuracy of analytical results.
What are some common contaminants found in tap water that can affect LC-MS analysis?
Tap water often contains various contaminants such as organic compounds, particulates, ions, and bacteria that can interfere with LC-MS analysis. These impurities can lead to baseline noise, reduced sensitivity, and poor chromatographic performance, ultimately affecting the quality of analytical data.
How does using Water for LC-MS benefit analytical laboratories?
Using Water for LC-MS helps analytical laboratories achieve better detection limits, higher sensitivity, and improved chromatographic resolution in their analyses. By providing a clean and reliable source of water, it enhances the overall quality and reproducibility of analytical results, leading to more accurate and trustworthy data.
What factors should be considered when selecting a Water for LC-MS system?
When selecting a Water for LC-MS system, it is essential to consider factors such as the level of purity required for the specific application, the water quality standards of the analytical method, the capacity and efficiency of the purification system, and the overall cost-effectiveness of the solution.