Adil Z. Tuleushev , Fiona E. Harrison , Artem L. Kozlovskiy , Maxim V. Zdorovets
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引用次数: 0
Abstract
We present a new hypothesis and supporting experimental evidence about the essential role played by small impurities of dicarboxystilbene in the process of UV treatment of PET films irradiated with swift heavy ions (SHI). This treatment both forms highly selective membranes with permeability values comparable to natural ones (the track-UV technique) and sharply accelerates the etching of latent tracks in membrane production (the track-etching technique). We hypothesize (1) that these high permeability value is due to the presence of a molecular motor of an Archimedes screw type in the central part of the latent track formed by photoinduced trans-cis isomerization of dicarboxystilbene molecules that are anchored in helical conformations in the latent track; and (2) that the acceleration of etching rates is due to the preferential accumulation of phenanthrene-type molecules in the central part of the latent track due to the existence of a cyclization channel for photoexcited molecules of cis-dicarboxystilbene. In the presence of alkali solution, phenanthrene molecules release electrons which behave as strong anions in aqueous solution, catalyzing alkaline hydrolysis of PET molecules in the central part of the track. We present experimental observations of photoinduced changes in transmission light intensity after track-UV light treatment of both pristine and SHI irradiated PET films that confirm the presence of trans-cis isomerization of dicarboxystilbene molecules and show their contribution to the formation of new helical conformations in SHI irradiated PET films during the light treatment.
我们提出了一个新的假设,并通过实验证明了二羧基二苯乙烯的小杂质在用快速重离子(SHI)辐照 PET 薄膜的紫外线处理过程中所起的重要作用。这种处理方法既能形成高选择性膜,其渗透值可与天然膜媲美(轨迹-紫外线技术),又能在膜生产过程中大大加快潜在轨迹的蚀刻(轨迹-蚀刻技术)。我们的假设是:(1) 这些高渗透率值是由于在潜轨的中央部分存在阿基米德螺钉型分子马达,该分子马达是由潜轨中以螺旋构象固定的二羧基二苯乙烯分子经光诱导反式-顺式异构化形成的;(2) 加速蚀刻速率的原因是,由于存在顺式二羧基二苯乙烯光激发分子的环化通道,菲类分子优先聚集在潜迹的中央部分。在碱溶液中,菲分子释放出电子,这些电子在水溶液中表现为强阴离子,催化了潜迹中心部分 PET 分子的碱性水解。我们展示了原始 PET 薄膜和经 SHI 照射的 PET 薄膜在经过轨道-紫外光处理后透射光强度光诱导变化的实验观察结果,这些观察结果证实了二羧基二苯乙烯分子存在反式-顺式异构化,并显示了它们在光处理期间对经 SHI 照射的 PET 薄膜中新螺旋构象的形成所起的作用。