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Name | Isooctane for UV, IR, HPLC, ACS |
Appearance | Colorless liquid |
Formula | C8H18 |
Molar Mass | 114.23 g/mol |
Melting Point | -107.4 °C |
Boiling Point | 99.2 °C |
Density | 691 kg/m³ |
Solubility | Practically insoluble in water |
Purity | ≥ 99.0% |
Storage Condition | Store in a cool, dry place |
Hazard Warnings | Flammable liquid and vapor |
Applications | Commonly used as a reference compound in physical and analytical chemistry |
FAQ
What is Isooctane, and what are its applications in UV, IR, HPLC, and ACS?
Isooctane is a branched-chain isomer of octane, commonly used as a reference standard for gas chromatography and as a component in gasoline to improve its octane rating. It is also utilized in various analytical techniques such as UV (Ultraviolet) and IR (Infrared) spectroscopy, HPLC (High-Performance Liquid Chromatography), and ACS (American Chemical Society) applications. Its unique properties make it an ideal choice for calibration and analysis purposes in these fields.
How does Isooctane perform in UV and IR spectroscopy?
Isooctane is a valuable solvent in UV and IR spectroscopy due to its high purity and low UV absorption characteristics. It does not interfere with the absorption of the analyte in UV spectroscopy, making it a reliable choice for dilutions and sample preparations. In IR spectroscopy, Isooctane's lack of significant absorption bands in the mid-IR region allows for accurate measurements of functional groups and chemical bonds present in the sample. Overall, Isooctane ensures precise and reproducible results in UV and IR spectroscopy applications.
What advantages does Isooctane offer in HPLC?
In HPLC, Isooctane plays a crucial role as a solvent for the separation and analysis of chemical compounds. Its low polarity and high volatility make it an excellent choice for non-polar compounds, enabling efficient chromatographic separations with minimal interference. Additionally, Isooctane's compatibility with various detectors and columns in HPLC systems contributes to accurate peak resolution and signal detection. Overall, Isooctane enhances the performance of HPLC analyses by providing consistent and reliable results.
How is Isooctane utilized in ACS applications?
Isooctane meets the stringent quality standards set by the American Chemical Society (ACS) for analytical applications. Its high purity and consistent properties make it a preferred choice for calibrating instruments, preparing standards, and conducting analytical tests in research laboratories and academic institutions. Isooctane's compatibility with ACS guidelines ensures the accuracy and reproducibility of results in various analytical methods, making it an indispensable component in chemical research and analysis.
What makes Isooctane a versatile and reliable choice for multiple analytical applications?
Isooctane's unique combination of properties, including high purity, low UV absorption, low polarity, and compatibility with ACS standards, makes it a versatile and reliable solvent for a wide range of analytical techniques. Its consistent performance in UV, IR, HPLC, and ACS applications ensures accurate and reproducible results, facilitating meaningful data interpretation and scientific discoveries. By choosing Isooctane for analytical purposes, researchers and analysts can trust in its quality and efficiency to meet their diverse needs and requirements.
Isooctane is a branched-chain isomer of octane, commonly used as a reference standard for gas chromatography and as a component in gasoline to improve its octane rating. It is also utilized in various analytical techniques such as UV (Ultraviolet) and IR (Infrared) spectroscopy, HPLC (High-Performance Liquid Chromatography), and ACS (American Chemical Society) applications. Its unique properties make it an ideal choice for calibration and analysis purposes in these fields.
How does Isooctane perform in UV and IR spectroscopy?
Isooctane is a valuable solvent in UV and IR spectroscopy due to its high purity and low UV absorption characteristics. It does not interfere with the absorption of the analyte in UV spectroscopy, making it a reliable choice for dilutions and sample preparations. In IR spectroscopy, Isooctane's lack of significant absorption bands in the mid-IR region allows for accurate measurements of functional groups and chemical bonds present in the sample. Overall, Isooctane ensures precise and reproducible results in UV and IR spectroscopy applications.
What advantages does Isooctane offer in HPLC?
In HPLC, Isooctane plays a crucial role as a solvent for the separation and analysis of chemical compounds. Its low polarity and high volatility make it an excellent choice for non-polar compounds, enabling efficient chromatographic separations with minimal interference. Additionally, Isooctane's compatibility with various detectors and columns in HPLC systems contributes to accurate peak resolution and signal detection. Overall, Isooctane enhances the performance of HPLC analyses by providing consistent and reliable results.
How is Isooctane utilized in ACS applications?
Isooctane meets the stringent quality standards set by the American Chemical Society (ACS) for analytical applications. Its high purity and consistent properties make it a preferred choice for calibrating instruments, preparing standards, and conducting analytical tests in research laboratories and academic institutions. Isooctane's compatibility with ACS guidelines ensures the accuracy and reproducibility of results in various analytical methods, making it an indispensable component in chemical research and analysis.
What makes Isooctane a versatile and reliable choice for multiple analytical applications?
Isooctane's unique combination of properties, including high purity, low UV absorption, low polarity, and compatibility with ACS standards, makes it a versatile and reliable solvent for a wide range of analytical techniques. Its consistent performance in UV, IR, HPLC, and ACS applications ensures accurate and reproducible results, facilitating meaningful data interpretation and scientific discoveries. By choosing Isooctane for analytical purposes, researchers and analysts can trust in its quality and efficiency to meet their diverse needs and requirements.