采用连续流动的激光诱导超极化129Xe为探针分子,利用高分辨固体核磁共振技术研究了不同电子结构的金属阳离子(Na+,Ag+Cu2+,Cu+,Cs+)交换的FAU型分子筛与超极化129Xe之间的相互作用.结果表明,超极化129Xe能够很灵敏地检测不同电子结构的金属离子对限阈空间中电场梯度的影响.Na+对超笼内电场梯度的影响很小,NaX与NaY分子筛中Xe的化学位移表现出相似的行为.对于具有nd10电子结构的Ag+或Cu2+经自还原生成的Cu+,其与Xe的5d0轨道形成dπ-dπ键,导致Xe的化学位移明显向商场方向位移.Cuπ由于具有一定的顺磁性,使得129Xe NMR谱展宽,甚至无法观测.Cs+的电子结构与Xe原子相同,它能吸附更多的Xe原子导致Xe的化学化移明显向低场方向偏移.
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