3-羟基黄酮-铝螯合物的构象与光谱研究

Conformational and spectroscopic investigation of 3-hydroxyflavone-aluminium chelates.

作者信息

Boudet A C, Cornard J P, Merlin J C

机构信息

LASIR, CNRS UMR 8516, Université des Sciences et Technologies de Lille, Villeneuve d'Ascq, France.

出版信息

Spectrochim Acta A Mol Biomol Spectrosc. 2000 Mar;56(4):829-39. doi: 10.1016/s1386-1425(99)00284-x.

DOI:10.1016/s1386-1425(99)00284-x

PMID:10794456

Abstract

3-Hydroxyflavone (3HF), which is the simplest molecule of the flavonol class, possesses chelating properties towards Al(III). Spectrophotometric methods have shown that the 3HF molecule forms an Al(3HF)2 complex in pure methanol. The structure of this complex, obtained by quantum semi-empirical AM1 method, indicated that complexed 3HF adopts a pyronium form. Structural and electronic modifications induced by chelation are illustrated by the important frequency shifts observed between free and complexed 3HF FT-Raman spectra and by the chemical shifts variations in the 13C NMR spectra of the two species. Complexes with the same stoichiometry were formed when AcO- or MeO- are present in the medium. However, in acidic medium the chelate composition is Al2(3HF).

摘要

3-羟基黄酮（3HF）是黄酮醇类中最简单的分子，对铝（III）具有螯合特性。分光光度法表明，3HF分子在纯甲醇中形成Al(3HF)₂络合物。通过量子半经验AM1方法获得的该络合物结构表明，络合的3HF呈吡喃鎓形式。游离和络合的3HF傅里叶变换拉曼光谱之间观察到的重要频率位移以及两种物质的¹³C NMR光谱中的化学位移变化说明了螯合引起的结构和电子修饰。当介质中存在AcO⁻或MeO⁻时会形成具有相同化学计量比的络合物。然而，在酸性介质中，螯合物组成为Al₂(3HF)。

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3-羟基黄酮-铝螯合物的构象与光谱研究

Conformational and spectroscopic investigation of 3-hydroxyflavone-aluminium chelates.

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