四苯基卟啉铁在贵金属（111）表面的吸附：密度泛函理论研究

Adsorption of iron tetraphenylporphyrin on (111) surfaces of coinage metals: a density functional theory study.

作者信息

Tang Hao, Tarrat Nathalie, Langlais Véronique, Wang Yongfeng

机构信息

CEMES/CNRS, 29 rue Jeanne Marvig, P.O. Box 94347, 31055 Toulouse CEDEX 4, France.

Key Laboratory for the Physics and Chemistry of Nanodevices, Department of Electronics, Peking University, Beijing 100871, China.

出版信息

Beilstein J Nanotechnol. 2017 Nov 23;8:2484-2491. doi: 10.3762/bjnano.8.248. eCollection 2017.

DOI:10.3762/bjnano.8.248

PMID:29234584

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5704758/

Abstract

The adsorption of the iron tetraphenylporphyrin (FeTPP) molecule in its deckchair conformation was investigated on Au(111), Ag(111) and Cu(111) surfaces by performing spin-polarized density functional theory (DFT) calculations taking into account both van der Waals (vdW) interaction and on-site Coulomb repulsion. The deckchair conformation of the molecule favours intermolecular π-π-type interactions in a less densely packed monolayer than the saddle conformation. The activation barrier between the two stable magnetic states (high spin, = 2 and intermediate spin, = 1) of the molecule in vacuum disappears upon adsorption on the metal surfaces. The high-spin state of physisorbed FeTPP is stable on all adsorption sites. This result reveals that an external permanent element such as a STM tip or an additional molecule is needed to use FeTPP or similar molecules as model system for molecular spin switches.

摘要

通过进行考虑范德华（vdW）相互作用和在位库仑排斥的自旋极化密度泛函理论（DFT）计算，研究了处于折叠椅构象的四苯基卟啉铁（FeTPP）分子在Au(111)、Ag(111)和Cu(111)表面的吸附情况。与鞍形构象相比，该分子的折叠椅构象在密度较小的单层中更有利于分子间的π-π型相互作用。分子在真空中的两个稳定磁态（高自旋，S = 2和中间自旋，S = 1）之间的活化能垒在吸附到金属表面时消失。物理吸附的FeTPP的高自旋态在所有吸附位点上都是稳定的。这一结果表明，需要一个外部永久元件，如STM尖端或另一个分子，才能将FeTPP或类似分子用作分子自旋开关的模型系统。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c428/5704758/b078c7f77f11/Beilstein_J_Nanotechnol-08-2484-g002.jpg

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四苯基卟啉铁在贵金属（111）表面的吸附：密度泛函理论研究

Adsorption of iron tetraphenylporphyrin on (111) surfaces of coinage metals: a density functional theory study.

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