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Name | Methanol for LC-MS |
Purity | 99.9% |
Grade | HPLC/MS grade |
CAS Number | 67-56-1 |
Appearance | Clear, colorless liquid |
Molecular Formula | CH₃OH |
Density | 0.7918 g/cm³ |
Boiling Point | 64.7°C |
Flash Point | 11.0°C |
Solubility | Miscible with water |
Storage | Store in a cool, dry, well-ventilated area away from incompatible substances |
FAQ
What is Methanol for LC-MS and why is it important in analytical chemistry?
Methanol for LC-MS is a high-purity grade of methanol that is specifically designed for use in Liquid Chromatography-Mass Spectrometry (LC-MS) applications. LC-MS is a powerful analytical technique used for the separation, identification, and quantification of components in a mixture. Methanol is a common solvent used in LC-MS because of its favorable properties, such as low viscosity, high polarity, and ability to form azeotropes with water.
What are the key benefits of using Methanol for LC-MS in analytical chemistry applications?
Methanol for LC-MS offers several key benefits that make it an ideal choice for analytical chemistry applications. These benefits include high purity, which reduces background noise and interference in mass spectrometry analysis. Methanol for LC-MS is also free from impurities that can cause issues such as ion suppression or signal drift. Additionally, the high-quality methanol helps to ensure reproducible and reliable results in LC-MS analysis.
How does the purity of Methanol for LC-MS impact analytical results?
The purity of Methanol for LC-MS is crucial in analytical chemistry applications, especially in LC-MS. Impurities present in lower-grade methanol can interfere with the analysis by contributing to background noise, signal suppression, or contamination of the mass spectrometer. The high purity of Methanol for LC-MS ensures that these issues are minimized, allowing for accurate and precise analysis of samples. By using a high-purity solvent like Methanol for LC-MS, analysts can trust the reliability of their results and make confident interpretations of their data.
What sets Methanol for LC-MS apart from other grades of methanol?
Methanol for LC-MS is specifically formulated to meet the stringent requirements of LC-MS applications. This high-purity grade of methanol undergoes rigorous testing to ensure that it meets the strict specifications necessary for analytical chemistry. By using Methanol for LC-MS, analysts can be confident that they are using a solvent that will deliver reliable and reproducible results in their LC-MS analysis. The purity and quality of Methanol for LC-MS set it apart from other grades of methanol, making it the optimal choice for analytical chemistry applications.
How can Methanol for LC-MS improve the efficiency and accuracy of LC-MS analysis?
Methanol for LC-MS plays a crucial role in improving the efficiency and accuracy of LC-MS analysis by providing a high-purity solvent that minimizes interference and contamination. The purity of Methanol for LC-MS ensures that background noise is reduced, allowing for better detection of analytes in samples. This leads to more accurate quantification and identification of components in a mixture. Additionally, the high quality of Methanol for LC-MS helps to ensure the reproducibility of results, allowing analysts to have confidence in the reliability of their data. By using Methanol for LC-MS, analysts can streamline their analytical processes and achieve more precise and reliable results in their LC-MS analysis.
Methanol for LC-MS is a high-purity grade of methanol that is specifically designed for use in Liquid Chromatography-Mass Spectrometry (LC-MS) applications. LC-MS is a powerful analytical technique used for the separation, identification, and quantification of components in a mixture. Methanol is a common solvent used in LC-MS because of its favorable properties, such as low viscosity, high polarity, and ability to form azeotropes with water.
What are the key benefits of using Methanol for LC-MS in analytical chemistry applications?
Methanol for LC-MS offers several key benefits that make it an ideal choice for analytical chemistry applications. These benefits include high purity, which reduces background noise and interference in mass spectrometry analysis. Methanol for LC-MS is also free from impurities that can cause issues such as ion suppression or signal drift. Additionally, the high-quality methanol helps to ensure reproducible and reliable results in LC-MS analysis.
How does the purity of Methanol for LC-MS impact analytical results?
The purity of Methanol for LC-MS is crucial in analytical chemistry applications, especially in LC-MS. Impurities present in lower-grade methanol can interfere with the analysis by contributing to background noise, signal suppression, or contamination of the mass spectrometer. The high purity of Methanol for LC-MS ensures that these issues are minimized, allowing for accurate and precise analysis of samples. By using a high-purity solvent like Methanol for LC-MS, analysts can trust the reliability of their results and make confident interpretations of their data.
What sets Methanol for LC-MS apart from other grades of methanol?
Methanol for LC-MS is specifically formulated to meet the stringent requirements of LC-MS applications. This high-purity grade of methanol undergoes rigorous testing to ensure that it meets the strict specifications necessary for analytical chemistry. By using Methanol for LC-MS, analysts can be confident that they are using a solvent that will deliver reliable and reproducible results in their LC-MS analysis. The purity and quality of Methanol for LC-MS set it apart from other grades of methanol, making it the optimal choice for analytical chemistry applications.
How can Methanol for LC-MS improve the efficiency and accuracy of LC-MS analysis?
Methanol for LC-MS plays a crucial role in improving the efficiency and accuracy of LC-MS analysis by providing a high-purity solvent that minimizes interference and contamination. The purity of Methanol for LC-MS ensures that background noise is reduced, allowing for better detection of analytes in samples. This leads to more accurate quantification and identification of components in a mixture. Additionally, the high quality of Methanol for LC-MS helps to ensure the reproducibility of results, allowing analysts to have confidence in the reliability of their data. By using Methanol for LC-MS, analysts can streamline their analytical processes and achieve more precise and reliable results in their LC-MS analysis.