Saito Tsuguyuki, Isogai Akira
Graduate School of Agricultural and Life Sciences, The University of Tokyo, 1-1-1 Yayoi, Bunkyo-ku, 113-8657, Japan.
Biomacromolecules. 2004 Sep-Oct;5(5):1983-9. doi: 10.1021/bm0497769.
Cellulose cotton linter was oxidized with sodium hypochlorite with catalytic amounts of sodium bromide and 2,2,6,6-tetramethylpiperidine-1-oxyl radical (TEMPO) under various conditions. After this TEMPO-mediated oxidation, water-insoluble fractions were collected and characterized in terms of carboxylate and aldehyde contents, crystallinities and crystal sizes, degrees of polymerization, morphology, and water retention values. Carboxylate and aldehyde groups were introduced into the water-insoluble fractions up to about 0.7 and 0.3 mmol/g, respectively, by the oxidation, where recovery of the water-insoluble fractions were generally higher than 80%. Crystallinities and crystal sizes of cellulose I were nearly unchanged during the oxidation, and thus, carboxylate and aldehyde groups were introduced selectively on crystal surfaces and in disordered regions of the water-insoluble fractions. Water retention values of cotton linter can be increased from 60% to about 280% through the introduction of hydrophilic carboxylate groups and morphological changes from fibrous forms to short fragments by the TEMPO-mediated oxidation.
在不同条件下,用次氯酸钠并添加催化量的溴化钠和2,2,6,6-四甲基哌啶-1-氧基自由基(TEMPO)对棉短绒纤维素进行氧化。经过这种TEMPO介导的氧化后,收集水不溶部分,并对其羧酸盐和醛含量、结晶度和晶体尺寸、聚合度、形态以及保水值进行表征。通过氧化,羧酸盐和醛基分别以高达约0.7和0.3 mmol/g的量引入到水不溶部分中,其中水不溶部分的回收率通常高于80%。在氧化过程中,纤维素I的结晶度和晶体尺寸几乎不变,因此,羧酸盐和醛基被选择性地引入到水不溶部分的晶体表面和无序区域。通过TEMPO介导的氧化引入亲水性羧酸盐基团以及使形态从纤维状变为短片段,棉短绒的保水值可从60%提高到约280%。