用于键合铁配合物异构体的转移试剂。

Transfer Reagent for Bonding Isomers of Iron Complexes.

机构信息

Institute of Inorganic Chemistry, University of Regensburg , Regensburg 93053, Germany.

Nikolaev Institute of Inorganic Chemistry SB RAS , Novosibirsk 630090, Russia.

出版信息

J Am Chem Soc. 2017 Oct 11;139(40):13981-13984. doi: 10.1021/jacs.7b07354. Epub 2017 Sep 27.

DOI:10.1021/jacs.7b07354

PMID:28933848

Abstract

The cothermolysis of As and [Cp″Zr(CO)] (Cp″ = η-CHtBu) results in the formation of [Cp″Zr(η-As)] (1) in high yields and the arsenic-rich complex [(Cp″Zr)(Cp″Zr)(μ,η-As)] (2) as a minor product. In contrast to yellow arsenic, 1 is a light-stable, weighable and storable arsenic source for subsequent reactions. The transfer reaction of 1 with [Cp‴Fe(μ-Br)] (Cp‴ = η-CHtBu) yields the unprecedented bond isomeric complexes [(Cp‴Fe)(μ,η-As)] (3a) and [(Cp‴Fe)(μ,η-cyclo-As)] (3b). In contrast, the analogous reaction with the Cp derivative [CpFe(μ-Br)] (Cp = η-C(CH(CH)) leads exclusively to the triple decker complex [(CpFe)(μ,η-As)] (4) possessing the tetraarsabutadiene-type ligand analogous to 3a. To elucidate the stability of the bonding isomers 3a and 3b, DFT calculations were performed. The oxidation of 4 with AgBF affords [(CpFe)(μ,η-As)][BF] (5), which is a product expanded by one arsenic atom, instead of the expected complex [(CpFe)(μ,η-cyclo-As)].

摘要

砷和 [Cp″Zr(CO)]（Cp″ = η-CHtBu）的共热解导致以高产率形成 [Cp″Zr(η-As)]（1）和作为次要产物的富砷配合物 [(Cp″Zr)(Cp″Zr)(μ,η-As)]（2）。与黄色砷不同，1 是一种稳定、可称重和可储存的砷源，可用于后续反应。1 与 [Cp‴Fe(μ-Br)]（Cp‴ = η-CHtBu）的转移反应生成前所未有的键异构配合物 [(Cp‴Fe)(μ,η-As)]（3a）和 [(Cp‴Fe)(μ,η-cyclo-As)]（3b）。相比之下，与 Cp 衍生物 [CpFe(μ-Br)]（Cp = η-C(CH(CH))的类似反应仅得到具有类似于 3a 的四砷丁二烯型配体的三重堆积配合物 [(CpFe)(μ,η-As)]（4）。为了阐明键异构体 3a 和 3b 的稳定性，进行了 DFT 计算。用 AgBF 氧化 4 得到 [(CpFe)(μ,η-As)][BF]（5），这是一个增加了一个砷原子的产物，而不是预期的配合物 [(CpFe)(μ,η-cyclo-As)]。

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用于键合铁配合物异构体的转移试剂。

Transfer Reagent for Bonding Isomers of Iron Complexes.

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