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张婧,董绍楠,侯晓霞,毕树平*. 密度泛函理论方法研究铝-麦芽酚配合物的形态结构与水交换反应[J]. 生态毒理学报, 2017, 12(3): 261-272
密度泛函理论方法研究铝-麦芽酚配合物的形态结构与水交换反应
Investigation of the Configuration Characteristics and Water- Exchange Reactions of Aluminium(III)-Maltolate Complexes by Density Functional Theory
投稿时间:2017-01-14  修订日期:2017-05-31
DOI:10.7524/AJE.1673-5897.20170114005
中文关键词:  铝-麦芽酚配合物  密度泛函理论  铝形态结构  水交换反应  致毒机制
英文关键词:aluminium(III)-maltolate complexes  density functional theory (DFT)  the structures and speciation of aluminium  water-exchange reaction  toxicity mechanism
基金项目:国家自然科学基金(No.21177054)
作者单位
张婧,董绍楠,侯晓霞,毕树平* 南京大学化学化工学院南京 210023 
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中文摘要:
      在B3LYP/6-311+G(d,p)基组水平下采用密度泛函理论方法系统开展了以下工作:(1) 优化得到1∶1、1∶2和1∶3铝-麦芽酚配合物10种可能构型的静态结构、NPA电荷以及能量参数,计算得到Al(ma)3配合物4种异构体的核磁共振、紫外和红外等光谱学数据并与文献实验值比较,证明本文采用的计算方法和模型适用于铝-麦芽酚体系的研究;(2) 模拟1∶1和1∶2铝-麦芽酚配合物9种可能位点的水交换反应,其中3个位点计算得到的水交换反应速率对数log kex(s-1)分别为2.4 (Al(ma)(H2O)2+4 (cis to ma))、2.6 (cis-Al(ma)2(H2O)+2(I))和3.0 (trans-Al(ma)2(H2O)+2(I)),与实验值2.5 (Al(ma)2+)和3.3 (Al(ma)2+)相符,说明相应位点为反应活性位点;(3) 探讨铝-麦芽酚配合物毒性与其形态结构之间的相关机制。
  
AuthorAffiliation
Zhang Jing, Dong Shaonan, Hou Xiaoxia, Bi Shuping*School of Chemistry and Chemical Engineering, Nanjing University, Nanjing 210023, China
英文摘要:
      The following studies were carried out at B3LYP/6-311+G(d,p) level by density functional theory: (1) Ten possible configurations of 1:1/1:2/1:3 Al-maltolate complexes were optimized and their static structural properties, NPA charges and energies were obtained. The 27Al NMR/1H NMR chemical shifts, ultraviolet spectral data and infrared absorptions of four isomers of Al(ma)3 were calculated and found to be corresponding with experimental results reported by literatures, which proved the applicability of the density functional theory. (2) Nine possible pathways of water-exchange reactions of 1:1/1:2 Al-maltolate complexes were simulated. The logarithm values of water-exchange rate constants log kex (s-1) of three sites were 2.4 (Al(ma)(H2O)2+4(cis to ma)), 2.6 (cis-Al(ma)2(H2O)+2(I)) and 3.0 (trans-Al(ma)2(H2O)+2(I)) respectively, which were in good agreement with the experimental values of 2.5 (Al(ma)2+) and 3.3 (Al(ma)2+), and the corresponding sites were regarded as the active sites. (3) The mechanism of the relationship between toxicity of Al-maltolate complexes and their different speciation was discussed.
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