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Name | 1-Butanol for UV, IR, HPLC |
Formula | C4H10O |
CAS Number | 71-36-3 |
Molar Mass | 74.12 g/mol |
Appearance | Colorless liquid |
Melting Point | -89.8 °C |
Boiling Point | 117.7 °C |
Density | 0.81 g/cm3 |
Solubility In Water | 7.9 g/100 mL (20 °C) |
Flash Point | 35 °C |
Refractive Index | 1.396 |
FAQ
1. What is 1-Butanol and how is it used for UV, IR, and HPLC applications?
1-Butanol, also known as n-butanol, is a clear, colorless liquid with a subtle alcohol odor. It is commonly used in various applications, including UV (ultraviolet), IR (infrared), and HPLC (high-performance liquid chromatography). In UV applications, 1-Butanol can act as a solvent or diluent for UV-absorbing compounds. In IR spectroscopy, it can be used as a reference material or solvent. For HPLC, 1-Butanol is utilized as a mobile phase modifier to improve separation and detection of compounds.
2. What are the benefits of using 1-Butanol for UV, IR, and HPLC purposes?
1-Butanol offers several advantages when used in UV, IR, and HPLC applications. It has a low UV cut-off, making it suitable for UV spectrophotometry. Additionally, its compatibility with various compounds in HPLC makes it a versatile choice for chromatographic analysis. In IR spectroscopy, 1-Butanol provides a clean background signal, enabling accurate measurements of target compounds. Overall, the use of 1-Butanol can enhance the performance and reliability of analytical techniques in these applications.
3. How can 1-Butanol be effectively utilized in UV, IR, and HPLC experiments?
To effectively utilize 1-Butanol in UV, IR, and HPLC experiments, it is important to consider factors such as purity, concentration, and solvent compatibility. Ensure that the 1-Butanol used is of high purity to prevent interference with sample analysis. Adjust the concentration of 1-Butanol as needed to achieve optimal separation and detection in HPLC. For IR spectroscopy, use 1-Butanol as a reference material or solvent in appropriate ratios to obtain accurate spectral data. By carefully controlling these parameters, researchers can maximize the benefits of using 1-Butanol in their analytical experiments.
4. Are there any considerations or precautions to keep in mind when working with 1-Butanol for UV, IR, and HPLC purposes?
When working with 1-Butanol for UV, IR, and HPLC applications, it is important to handle the compound with care due to its flammable nature. Use appropriate safety measures, such as working in a well-ventilated area and wearing personal protective equipment, to minimize risks associated with exposure. Additionally, ensure that 1-Butanol is stored properly in a cool, dry place away from direct sunlight to maintain its stability. By following these precautions, researchers can conduct their experiments safely and effectively using 1-Butanol.
5. Where can I obtain high-quality 1-Butanol for my UV, IR, and HPLC research needs?
High-quality 1-Butanol for UV, IR, and HPLC applications can be obtained from reputable chemical suppliers or distributors. Ensure that the 1-Butanol purchased meets the necessary purity requirements for your specific analytical techniques. It is advisable to source 1-Butanol from trusted suppliers with a proven track record of delivering reliable products. By selecting a reliable supplier, researchers can obtain high-quality 1-Butanol to support their UV, IR, and HPLC research needs.
1-Butanol, also known as n-butanol, is a clear, colorless liquid with a subtle alcohol odor. It is commonly used in various applications, including UV (ultraviolet), IR (infrared), and HPLC (high-performance liquid chromatography). In UV applications, 1-Butanol can act as a solvent or diluent for UV-absorbing compounds. In IR spectroscopy, it can be used as a reference material or solvent. For HPLC, 1-Butanol is utilized as a mobile phase modifier to improve separation and detection of compounds.
2. What are the benefits of using 1-Butanol for UV, IR, and HPLC purposes?
1-Butanol offers several advantages when used in UV, IR, and HPLC applications. It has a low UV cut-off, making it suitable for UV spectrophotometry. Additionally, its compatibility with various compounds in HPLC makes it a versatile choice for chromatographic analysis. In IR spectroscopy, 1-Butanol provides a clean background signal, enabling accurate measurements of target compounds. Overall, the use of 1-Butanol can enhance the performance and reliability of analytical techniques in these applications.
3. How can 1-Butanol be effectively utilized in UV, IR, and HPLC experiments?
To effectively utilize 1-Butanol in UV, IR, and HPLC experiments, it is important to consider factors such as purity, concentration, and solvent compatibility. Ensure that the 1-Butanol used is of high purity to prevent interference with sample analysis. Adjust the concentration of 1-Butanol as needed to achieve optimal separation and detection in HPLC. For IR spectroscopy, use 1-Butanol as a reference material or solvent in appropriate ratios to obtain accurate spectral data. By carefully controlling these parameters, researchers can maximize the benefits of using 1-Butanol in their analytical experiments.
4. Are there any considerations or precautions to keep in mind when working with 1-Butanol for UV, IR, and HPLC purposes?
When working with 1-Butanol for UV, IR, and HPLC applications, it is important to handle the compound with care due to its flammable nature. Use appropriate safety measures, such as working in a well-ventilated area and wearing personal protective equipment, to minimize risks associated with exposure. Additionally, ensure that 1-Butanol is stored properly in a cool, dry place away from direct sunlight to maintain its stability. By following these precautions, researchers can conduct their experiments safely and effectively using 1-Butanol.
5. Where can I obtain high-quality 1-Butanol for my UV, IR, and HPLC research needs?
High-quality 1-Butanol for UV, IR, and HPLC applications can be obtained from reputable chemical suppliers or distributors. Ensure that the 1-Butanol purchased meets the necessary purity requirements for your specific analytical techniques. It is advisable to source 1-Butanol from trusted suppliers with a proven track record of delivering reliable products. By selecting a reliable supplier, researchers can obtain high-quality 1-Butanol to support their UV, IR, and HPLC research needs.