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关于卟吩在铜(111)表面的互变异构:探寻范德华相互作用与杂化之间的微妙平衡

On the tautomerisation of porphycene on copper (111): Finding the subtle balance between van der Waals interactions and hybridisation.

作者信息

Novko Dino, Tremblay Jean Christophe, Blanco-Rey María

机构信息

Donostia International Physics Center (DIPC), Paseo Manuel de Lardizabal 4, 20018 Donostia-San Sebastián, Spain.

Institute for Chemistry and Biochemistry, Freie Universität Berlin, Takustraße 3, D-14195 Berlin, Germany.

出版信息

J Chem Phys. 2016 Dec 28;145(24):244701. doi: 10.1063/1.4972213.

Abstract

We use density-functional theory (DFT) to analyse the interaction of trans- and cis-porphycene with Cu(111) and their interconversion by intramolecular H-transfer. This tautomerisation reaction is characterised by small values for the reaction energy and barrier, on the order of ∼0.1 eV, where the trans configuration is thermodynamically more stable upon adsorption according to the experiments [J. N. Ladenthin et al., ACS Nano 9, 7287-7295 (2015)]. To gain even a qualitatively correct description of this reaction at the DFT level, an accurate treatment of dispersion interactions and a careful choice of the exchange contribution are required in order to predict the subtle energetics. Analysis of the electronic structure shows that adsorption is contributed by a van der Waals (vdW) interaction, mainly responsible for stabilising the polyaromatic fragments, and by a significant charge redistribution localised between Cu and the unsaturated N atoms of the molecule central cavity. We find that different vdW functionals can produce qualitatively different electronic structures, while yielding small trans vs. cis energy differences. Unlike other functionals surveyed here, vdW-DF with PBE exchange satisfactorily reproduces not only the experimental energetics but also the scanning tunneling microscopy images. This gives us confidence that this functional achieves a reliable balance between the two mechanisms contributing to the adsorption of porphycene.

摘要

我们使用密度泛函理论(DFT)来分析反式和顺式卟吩与Cu(111)的相互作用以及它们通过分子内氢转移的相互转化。这种互变异构反应的特点是反应能量和势垒值较小,约为0.1 eV,根据实验[J. N. Ladenthin等人,《美国化学会纳米》9,7287 - 7295(2015)],吸附时反式构型在热力学上更稳定。为了在DFT水平上对该反应获得哪怕是定性正确的描述,需要对色散相互作用进行精确处理并仔细选择交换贡献,以便预测微妙的能量学。电子结构分析表明,吸附由范德华(vdW)相互作用贡献,主要负责稳定多芳族片段,并且由Cu与分子中心腔的不饱和N原子之间的显著电荷重新分布贡献。我们发现不同的vdW泛函可以产生定性不同的电子结构,同时产生较小的反式与顺式能量差。与这里研究的其他泛函不同,具有PBE交换的vdW - DF不仅令人满意地再现了实验能量学,还再现了扫描隧道显微镜图像。这使我们相信该泛函在有助于卟吩吸附的两种机制之间实现了可靠的平衡。

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