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Phenylhydrazine was the first hydrazine derivative characterized, reported by Hermann Emil Fischer in 1875. [7] [8] He prepared it by reduction of a phenyl diazonium salt using sulfite salts. Fischer used phenylhydrazine to characterize sugars via formation of hydrazones known as osazones with the sugar aldehyde. He also demonstrated in this ...
Phenylhydrazine and 2,4-dinitrophenylhydrazine had been used historically in analytical chemistry to detect and identify compounds with carbonyl groups. Phenylhydrazine was used to study the structure of carbohydrates , because the reaction of the sugar's aldehyde groups lead to well crystallizing phenylhydrazones or osazones .
Phenylhydrazine reacts with reducing sugars to form hydrazones known as osazones, which was developed by German chemist Emil Fischer as a test to differentiate ...
Borsche–Drechsel cyclization is the central step in Borsche–Drechsel carbazole synthesis, where in the first step phenylhydrazine is condensed with cyclohexanone to form the cyclohexanone phenylhydrazone, and in the final step the resulting tetrahydrocarbazole is oxidized to carbazole itself.
Osazone formation was developed by Emil Fischer, [3] who used the reaction as a test to identify monosaccharides.. The formation of a pair of hydrazone functionalities involves both oxidation and condensation reactions. [4]
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Agaritine is present as a natural mycotoxin in fresh samples of at least 24 species of the genera Agaricus, Leucoagaricus, and Macrolepiota. [1] [2] Mushrooms of these species are found around the world. [3]
Phenazone is synthesized [7] by condensation of phenylhydrazine and ethyl acetoacetate under basic conditions and methylation of the resulting intermediate compound 1-phenyl-3-methylpyrazolone [8] with dimethyl sulfate or methyl iodide. It crystallizes in needles which melt at 156 °C (313 °F).