Films of bacterial cellulose Glucoacetobacter xylinus with water content less than 1 % w. were studied in order to determine mechanism of banding prymary hydroxyl with water in the supramolecular structure of the bacterial cellulose. The method of dielectric spectroscopy was used to study influence of temperature treatment on molecular mobility of prymary hydroxyl. Two areas of primary hydroxyl in bacterial cellulose are shown.
бактериальная целлюлоза, диэлектрическая спектроскопия, первичный гидроксил, вода в структуре целлюлозы, bacterial cellulose, dielectric spectroscopy, primary hydroxyl water in cellulose structure
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