Purchase CAS:930836-30-9,view related peer-reviewed papers,technical documents,similar products,MSDS & more. ((Chlorodifluoromethyl)sulfonyl)benzene, also known as (CFMSB) is a powerful and versatile reagent used in organic and synthetic chemistry. It is a colorless, volatile liquid with a melting point of -60 °C and a boiling point of 76 °C. In terms of its chemical structure, CFMSB is a substituted benzene ring with a sulfu...
((Chlorodifluoromethyl)sulfonyl)benzene, also known as (CFMSB) is a powerful and versatile reagent used in organic and synthetic chemistry. It is a colorless, volatile liquid with a melting point of -60 °C and a boiling point of 76 °C. In terms of its chemical structure, CFMSB is a substituted benzene ring with a sulfur atom attached to the carbon atom of the ring. CFMSB is a useful reagent for a variety of chemical reactions, including the synthesis of organic compounds, the preparation of organometallic complexes, and the synthesis of pharmaceuticals. In addition, CFMSB has been used in the laboratory for a wide range of applications, such as the synthesis of polymers, the preparation of catalysts, and the development of new drugs.
Scientific Research Applications
Synthesis of Pharmaceutically Relevant Compounds
Mechanochemistry has been utilized to synthesize sulfonyl-(thio)ureas, including known anti-diabetic drugs, using sulfonamides and iso(thio)cyanates. This process yields pharmaceutically significant compounds efficiently (Tan, Štrukil, Mottillo, & Friščić, 2014).
Environmental Impact and Toxicity Studies
Research on linear alkylbenzene sulfonates (LAS), which are structurally related to (Chlorodifluoromethyl)sulfonylbenzene, has been conducted to understand their formation and toxicity as byproducts in urban wastewater. These studies assess the impact of such compounds on the environment and marine organisms (Gong, Zhang, Li, & Xian, 2016).
Determination in Environmental Samples
Techniques such as liquid chromatography have been developed to detect and quantify sulfonylurea herbicides in water, which are related to (Chlorodifluoromethyl)sulfonylbenzene. These methods are crucial for monitoring environmental pollution (Carabias-Martínez, Rodríguez-Gonzalo, Herrero-Hernández, & Hernández-Méndez, 2004) .
Development of Nonlinear Optical Materials
Innovative strategies have been developed for creating polyphosphazenes with sulfonyl-based chromophores, demonstrating potential applications in nonlinear optical materials. These materials exhibit good solubility, thermal stability, and modified absorption properties (Li, Huang, Hua, Qin, Yang, & Ye, 2004).
Application in Environmental and Food Analysis
Antibody-based methods utilizing sulfonylurea herbicides, related to (Chlorodifluoromethyl)sulfonylbenzene, have been developed for assays in environmental research and food testing. These methods are significant for detecting pollutants and ensuring safety standards (Fránek & Hruška, 2018) .
Oxidation and Degradation Studies in Water Treatment
Studies on the oxidation of sulfonamide antibiotics by chlorine dioxide in water provide insights into the degradation pathways of related sulfonamides, such as (Chlorodifluoromethyl)sulfonylbenzene, important for water treatment processes (Ben, Shi, Li, Zhang, & Qiang, 2017).
Phytotoxicity and Environmental Impact Studies
Research on the phytotoxic effects of linear alkylbenzene sulfonate on plants like weeping willows contributes to understanding the environmental impact of related compounds, including (Chlorodifluoromethyl)sulfonylbenzene, on flora (Yu, Trapp, Zhou, Peng, & Cao, 2006).
Anaerobic Degradation in Marine Sediments
The anaerobic degradation of linear alkylbenzene sulfonates in marine sediments has been investigated, showing the potential degradation pathways and microorganisms involved. This research is relevant for understanding the fate of similar compounds in anoxic environments (Lara-Martín, Gómez-Parra, Köchling, Sanz, Amils, & González‐Mazo, 2007) .