Bis-arylsulfenyl- and bis-arylselanyl-benzo-2,1,3-thiadiazoles were synthesized in good yields by copper-catalysed cross-coupling reaction of arylthiols or diaryl diselenides with the commercially available 4,7-dibromobenzo[c][1,2,5]thiadiazole.
This work reports the synthesis of new fatty N-acylamino acids and N-acylamino esters from the C16:0, C18:0, C18:1, and C18:1(OH) fatty acid families and demonstrates the activity of these compounds as organogel agents. Compounds were heated and dissolved in various solvents (n-hexane, toluene, and gasoline). Only saturated C16:0 and C18:0 derived from alanine were able to form gels in toluene, and saturated C16:0 derived from phenylalanine showed gelation in n-hexane. This is the first evidence that fatty N-acylamino esters and N-acylamino acid derivatives of L-serine and fatty acids C16:0, C18:0, and C18:1 are able to form gels with hexane. This observation confirms the importance of the hydroxyl group in the segment derivative of L-serine in forming good gels.
. Itália km 08 s/n, 96203-000 Rio Grande -RS, Brasil Recebido em 11/11/09; aceito em 17/2/10; publicado na web em 21/5/10 SYNTHESIS OF NEW FATTY ACIDS AMIDES FROM AMINOLYSIS OF FAMES. Recent biochemical and pharmacological studies have led to the characterization of different fatty acid amides as a new family of biologically active lipids. Here, we describe the synthesis of new amides from C16:0, 18:0, 18:1 and 18:1, OH fatty acids (FFA) families with cyclic and acyclic amines and demonstrate for the first time that these compounds produce citotoxic effects. Application of this method to the synthesis of fatty acid amides was performed using the esters aminolysis as a key step and various carboxylic amides were prepared in good yield from fatty acid methyl esters (FAMEs).
This review summarizes diverse synthetic methodologies to prepare a wide range of heptamethine cyanine dyes, including symmetrical, unsymmetrical, and meso‐substituted derivatives, and their photophysical properties and uses. Their sensing applications are also discussed, considering the nature of their electronic structures and photophysical properties. The optical sensing applications of these compounds can be potentially expanded via structural modification, broadening their absorption amplitude and spectral emission range from the ultraviolet to near‐infrared (NIR) region. In this review, several recent practical applications of the heptamethine cyanine dyes for ion and small molecule sensing, as well as bioimaging, are covered and discussed.
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