Quantum-chemical study of spin crossover in cobalt complexes with an o-benzoquinone ligand

Starikov A. G.; Starikova A. A.; Minkin V. I.

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Quantum-chemical study of spin crossover in cobalt complexes with an o-benzoquinone ligand

机译：具有邻苯醌配体的钴配合物自旋交叉的量子化学研究

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Quantum-chemical modeling of cationic cobalt complexes based on o-benzoquinone and a di-tert-butyl derivative of 2,11-diaza[3.3](2,6)pyridinophane was performed by the density functional theory method in the TPSSh/6-311++G(d,p) approximation. The ground states of the studied compounds are lowspin structures consisting of the divalent metal cation and a redox-active ligand in the semiquinone form. The calculations predict incomplete transition of these complexes to the high-spin state, which is consistent with the results of magnetochemical measurements.

机译：在TPSSh / 6-中通过密度泛函方法对基于邻苯醌和2,11-二氮杂[3.3]（2,6）吡啶py的二叔丁基衍生物的阳离子钴配合物进行量子化学建模。 311 ++ G（d，p）近似值。所研究化合物的基态为低旋结构，其由二价金属阳离子和半醌形式的氧化还原活性配体组成。计算预测这些配合物不完全过渡到高自旋态，这与磁化学测量的结果一致。

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《Doklady Chemistry》 |2016年第1期|共5页
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Starikov A. G.; Starikova A. A.; Minkin V. I.;
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1. Quantum-chemical study of spin crossover in cobalt complexes with an o-benzoquinone ligand [J] . Starikov A. G., Starikova A. A., Minkin V. I. Doklady Chemistry . 2016,第Pta1期

机译：具有邻苯醌配体的钴配合物自旋交叉的量子化学研究
2. Spin-state energetics and spin-crossover behavior of pseudotetrahedral Cobalt(III)-imido complexes. The role of the tripodal supporting ligand [J] . Wasbotten IH, Ghosh A Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2007,第19期

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3. Towards accurate estimates of the spin-state energetics of spin-crossover complexes within density functional theory: a comparative case study of cobalt(II) complexes [J] . Alfredo Vargas, Itana Krivokapic, Andreas Hauser Physical chemistry chemical physics: PCCP . 2013,第11期

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Quantum-chemical study of spin crossover in cobalt complexes with an o-benzoquinone ligand

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