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二元伪四面体津特耳阴离子的系统密度泛函理论研究:相对稳定性以及对质子、三甲基硅基和铁络合物片段的反应活性

Systematic DFT Studies on Binary Pseudo-tetrahedral Zintl Anions: Relative Stabilities and Reactivities towards Protons, Trimethylsilyl Groups, and Iron Complex Fragments.

作者信息

Guggolz Lukas, Dehnen Stefanie

机构信息

Fachbereich Chemie and Wissenschaftliches Zentrum für, Materialwissenschaften (WZMW), Philipps-Universität Marburg, Hans-Meerwein-Straße 4, 35043, Marburg, Germany.

出版信息

Chemistry. 2020 Sep 10;26(51):11819-11828. doi: 10.1002/chem.202001379. Epub 2020 Aug 17.

DOI:10.1002/chem.202001379
PMID:32285972
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7540718/
Abstract

Binary pseudo-tetrahedral Zintl anions composed of (semi)metal atoms of the p-block elements have proven to be excellent starting materials for the synthesis of a variety of heterometallic and intermetalloid transition metal-main group metal cluster anions. However, only ten of the theoretically possible 48 anions have been experimentally accessed to date as isolable salts. This brings up the question whether the other species are generally not achievable, or whether synthetic chemists just have not succeeded in their preparation so far. To contribute to a possible answer to this question, global minimum structures were calculated for all anions of the type (TrTt ) , (TrPn ) , and (Tt Pn ) , comprising elements of periods 3 to 6 (Tr: triel, Al⋅⋅⋅Tl; Tt: tetrel, Si⋅⋅⋅Pb; Pn: pnictogen, P⋅⋅⋅Bi). By analyzing the computational results, a concept was developed to predict which of the yet missing anions should be synthesizable and why. Additionally, the results of an electrophilic attack by protons or trimethylsilyl groups or a nucleophilic attack by transition metal complex fragments are described. The latter yields butterfly-like structures that can be viewed as a new form of adaptable tridentate chelating ligands.

摘要

由p区元素的(半)金属原子组成的二元伪四面体津特耳阴离子已被证明是合成各种异金属和类金属间过渡金属-主族金属簇阴离子的优良起始原料。然而,在理论上可能的48种阴离子中,迄今为止只有10种已通过实验获得可分离的盐。这就提出了一个问题,即其他物种是否通常无法实现,或者合成化学家到目前为止只是没有成功制备它们。为了对这个问题的可能答案做出贡献,对所有类型为(TrTt ) 、(TrPn ) 和(Tt Pn ) 的阴离子计算了全局最小结构,这些阴离子包含第3至6周期的元素(Tr:三角元素,Al⋅⋅⋅Tl;Tt:四角元素,Si⋅⋅⋅Pb;Pn:氮族元素,P⋅⋅⋅Bi)。通过分析计算结果,形成了一个概念,以预测哪些尚未得到的阴离子应该是可合成的以及原因。此外,还描述了质子或三甲基硅基的亲电攻击或过渡金属络合物片段的亲核攻击的结果。后者产生类似蝴蝶的结构,可被视为一种新型的适应性三齿螯合配体。

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