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Name | Cyclohexane |
Common Name | Hexahydrobenzene |
IUPAC Name | Cyclohexane |
Molecular Formula | C6H12 |
Molecular Weight | 84.16 g/mol |
Appearance | Colorless liquid |
Odor | Mild, gasoline-like odor |
Boiling Point | 80.7 °C |
Melting Point | -47.7 °C |
Density | 0.779 g/cm3 |
Solubility | Insoluble in water, soluble in organic solvents |
Purity | ACS grade |
PH | Neutral |
UV Absorption | Shows absorbance at 205 nm |
IR Spectra | Characteristic peaks at 720 cm-1, 1460 cm-1, 2860 cm-1 |
HPLC Compatibility | Compatible |
Applications | Used as a solvent in chemical reactions, extraction processes, and as a non-polar mobile phase in HPLC |
FAQ
What is Cyclohexane and why is it useful for UV, IR, HPLC, and ACS?
Cyclohexane is a colorless liquid with a mild, sweet odor that is commonly used as a non-polar solvent in various analytical techniques such as UV, IR, HPLC, and ACS. It is a cycloalkane with the chemical formula C6H12 and is often preferred in analytical chemistry due to its low toxicity and low boiling point.
How does Cyclohexane benefit UV spectroscopy?
Cyclohexane is an excellent solvent for UV spectroscopy due to its lack of absorption in the UV range, which allows for accurate measurements of compounds dissolved in it. Its non-polar nature also makes it compatible with many organic compounds, making it a versatile solvent for analyzing organic substances using UV spectroscopy.
Can Cyclohexane be used for IR spectroscopy?
Yes, Cyclohexane is commonly used in IR spectroscopy as a solvent to dissolve samples for analysis. Its lack of absorption in the IR range allows for clear spectral readings of the sample, making it a suitable solvent for IR spectroscopy applications. Additionally, its low boiling point makes it easy to remove from the sample after analysis.
What advantages does Cyclohexane offer for HPLC?
Cyclohexane is frequently used in HPLC (High-Performance Liquid Chromatography) as a mobile phase solvent due to its non-polar properties. It is particularly useful for separating non-polar compounds or analytes in a sample, providing high resolution and efficient separation. Its compatibility with many organic compounds and low viscosity make it an ideal solvent for HPLC applications.
How is Cyclohexane beneficial for ACS applications?
In ACS (American Chemical Society) applications, Cyclohexane is utilized as a solvent for various chemical reactions, extractions, and analyses. Its non-polar nature makes it suitable for dissolving a wide range of organic compounds, while its low toxicity and high purity make it compliant with ACS standards. Whether as a reaction medium or a solvent for sample preparation, Cyclohexane is valued for its reliability and effectiveness in ACS applications.
In which industries or fields is Cyclohexane commonly used for UV, IR, HPLC, and ACS applications?
Cyclohexane finds applications in a wide range of industries and fields where analytical techniques such as UV, IR, HPLC, and ACS are employed. These include pharmaceuticals, biochemistry, environmental analysis, forensics, petrochemicals, and many more. Its versatility, low toxicity, and compatibility with a variety of compounds make it a popular choice for analytical purposes in diverse industries and research fields.
Cyclohexane is a colorless liquid with a mild, sweet odor that is commonly used as a non-polar solvent in various analytical techniques such as UV, IR, HPLC, and ACS. It is a cycloalkane with the chemical formula C6H12 and is often preferred in analytical chemistry due to its low toxicity and low boiling point.
How does Cyclohexane benefit UV spectroscopy?
Cyclohexane is an excellent solvent for UV spectroscopy due to its lack of absorption in the UV range, which allows for accurate measurements of compounds dissolved in it. Its non-polar nature also makes it compatible with many organic compounds, making it a versatile solvent for analyzing organic substances using UV spectroscopy.
Can Cyclohexane be used for IR spectroscopy?
Yes, Cyclohexane is commonly used in IR spectroscopy as a solvent to dissolve samples for analysis. Its lack of absorption in the IR range allows for clear spectral readings of the sample, making it a suitable solvent for IR spectroscopy applications. Additionally, its low boiling point makes it easy to remove from the sample after analysis.
What advantages does Cyclohexane offer for HPLC?
Cyclohexane is frequently used in HPLC (High-Performance Liquid Chromatography) as a mobile phase solvent due to its non-polar properties. It is particularly useful for separating non-polar compounds or analytes in a sample, providing high resolution and efficient separation. Its compatibility with many organic compounds and low viscosity make it an ideal solvent for HPLC applications.
How is Cyclohexane beneficial for ACS applications?
In ACS (American Chemical Society) applications, Cyclohexane is utilized as a solvent for various chemical reactions, extractions, and analyses. Its non-polar nature makes it suitable for dissolving a wide range of organic compounds, while its low toxicity and high purity make it compliant with ACS standards. Whether as a reaction medium or a solvent for sample preparation, Cyclohexane is valued for its reliability and effectiveness in ACS applications.
In which industries or fields is Cyclohexane commonly used for UV, IR, HPLC, and ACS applications?
Cyclohexane finds applications in a wide range of industries and fields where analytical techniques such as UV, IR, HPLC, and ACS are employed. These include pharmaceuticals, biochemistry, environmental analysis, forensics, petrochemicals, and many more. Its versatility, low toxicity, and compatibility with a variety of compounds make it a popular choice for analytical purposes in diverse industries and research fields.