TCI America Pentafluorobenzoyl Chloride P0807

Description
Pentafluorobenzoyl Chloride / Perfluorobenzoyl Chloride For GC analysis, the substance to be analyzed must be in the gaseous form. Because of this, the analysis of many organic compounds requires that injections, columns, and detectors are kept at relatively high temperatures. However, many organic compounds are thermally unstable. In such cases, it is necessary to convert the substance to be analyzed to a more volatile derivative appropriate for GC analysis. GC derivatizing reagents such as silylating, acylating, and alkylating reagents are used for this conversion. Meanwhile, GC has been used for the analysis of biogenic substances. This generally requires the use of various derivatizing reagents. As an example, trimethylsulfonium hydroxide 1 can easily convert fatty acids, fatty acid esters, and glycerides into their methyl esters in a single step through the pyrolysis of the corresponding sulfonium salts 2.1) The low-boiling by-product, dimethyl sulfide, does not disturb the chromatographic separation of the samples. Therefore, the method using 1 is suitable for detection not only of longer chain fatty acids but also of relatively short chain fatty acids. 1 has been successfully applied for sample preparation in the analysis of fatty acids in microorganisms and human blood serum.2)
Description
Pentafluorobenzoyl Chloride / Perfluorobenzoyl Chloride For GC analysis, the substance to be analyzed must be in the gaseous form. Because of this, the analysis of many organic compounds requires that injections, columns, and detectors are kept at relatively high temperatures. However, many organic compounds are thermally unstable. In such cases, it is necessary to convert the substance to be analyzed to a more volatile derivative appropriate for GC analysis. GC derivatizing reagents such as silylating, acylating, and alkylating reagents are used for this conversion. Meanwhile, GC has been used for the analysis of biogenic substances. This generally requires the use of various derivatizing reagents. As an example, trimethylsulfonium hydroxide 1 can easily convert fatty acids, fatty acid esters, and glycerides into their methyl esters in a single step through the pyrolysis of the corresponding sulfonium salts 2.1) The low-boiling by-product, dimethyl sulfide, does not disturb the chromatographic separation of the samples. Therefore, the method using 1 is suitable for detection not only of longer chain fatty acids but also of relatively short chain fatty acids. 1 has been successfully applied for sample preparation in the analysis of fatty acids in microorganisms and human blood serum.2)

Suppliers

Company
Product
Description
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Pentafluorobenzoyl Chloride - P0807 - TCI America
Portland, OR, USA
Pentafluorobenzoyl Chloride
P0807
Pentafluorobenzoyl Chloride P0807
Pentafluorobenzoyl Chloride / Perfluorobenzoyl Chloride For GC analysis, the substance to be analyzed must be in the gaseous form. Because of this, the analysis of many organic compounds requires that injections, columns, and detectors are kept at relatively high temperatures. However, many organic compounds are thermally unstable. In such cases, it is necessary to convert the substance to be analyzed to a more volatile derivative appropriate for GC analysis. GC derivatizing reagents such as silylating, acylating, and alkylating reagents are used for this conversion. Meanwhile, GC has been used for the analysis of biogenic substances. This generally requires the use of various derivatizing reagents. As an example, trimethylsulfonium hydroxide 1 can easily convert fatty acids, fatty acid esters, and glycerides into their methyl esters in a single step through the pyrolysis of the corresponding sulfonium salts 2.1) The low-boiling by-product, dimethyl sulfide, does not disturb the chromatographic separation of the samples. Therefore, the method using 1 is suitable for detection not only of longer chain fatty acids but also of relatively short chain fatty acids. 1 has been successfully applied for sample preparation in the analysis of fatty acids in microorganisms and human blood serum.2)

Pentafluorobenzoyl Chloride / Perfluorobenzoyl Chloride
For GC analysis, the substance to be analyzed must be in the gaseous form. Because of this, the analysis of many organic compounds requires that injections, columns, and detectors are kept at relatively high temperatures. However, many organic compounds are thermally unstable. In such cases, it is necessary to convert the substance to be analyzed to a more volatile derivative appropriate for GC analysis. GC derivatizing reagents such as silylating, acylating, and alkylating reagents are used for this conversion.
Meanwhile, GC has been used for the analysis of biogenic substances. This generally requires the use of various derivatizing reagents. As an example, trimethylsulfonium hydroxide 1 can easily convert fatty acids, fatty acid esters, and glycerides into their methyl esters in a single step through the pyrolysis of the corresponding sulfonium salts 2.1) The low-boiling by-product, dimethyl sulfide, does not disturb the chromatographic separation of the samples. Therefore, the method using 1 is suitable for detection not only of longer chain fatty acids but also of relatively short chain fatty acids. 1 has been successfully applied for sample preparation in the analysis of fatty acids in microorganisms and human blood serum.2)

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Technical Specifications

  TCI America
Product Category Chemical Additives and Agents
Product Number P0807
Product Name Pentafluorobenzoyl Chloride
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