力致单个分子中的互变异构。

Force-induced tautomerization in a single molecule.

机构信息

Department of Physical Chemistry, Fritz-Haber Institute of the Max-Planck Society, Faradayweg 4-6, 14195 Berlin, Germany.

Donostia International Physics Center (DIPC) - UPV/EHU, E-20018, San Sebastián, Spain.

出版信息

Nat Chem. 2016 Oct;8(10):935-40. doi: 10.1038/nchem.2552. Epub 2016 Jul 4.

DOI:10.1038/nchem.2552

PMID:27657869

Abstract

Heat transfer, electrical potential and light energy are common ways to activate chemical reactions. Applied force is another way, but dedicated studies for such a mechanical activation are limited, and this activation is poorly understood at the single-molecule level. Here, we report force-induced tautomerization in a single porphycene molecule on a Cu(110) surface at 5 K, which is studied by scanning probe microscopy and density functional theory calculations. Force spectroscopy quantifies the force needed to trigger tautomerization with submolecular spatial resolution. The calculations show how the reaction pathway and barrier of tautomerization are modified in the presence of a copper tip and reveal the atomistic origin of the process. Moreover, we demonstrate that a chemically inert tip whose apex is terminated by a xenon atom cannot induce the reaction because of a weak interaction with porphycene and a strong relaxation of xenon on the tip as contact to the molecule is formed.

摘要

热传递、电势和光能是常见的激活化学反应的方式。施加力也是一种方式，但专门针对这种机械激活的研究有限，而且这种激活在单分子水平上的理解还很有限。在这里，我们报告了在 5K 下铜（110）表面上单个卟啉分子的力诱导互变异构，通过扫描探针显微镜和密度泛函理论计算对其进行了研究。力谱学定量确定了以亚分子空间分辨率触发互变异构所需的力。计算表明了在铜尖端存在的情况下，互变异构的反应途径和势垒是如何被修饰的，并揭示了该过程的原子起源。此外，我们还证明了化学惰性的尖端，其尖端由氙原子终止，由于与卟啉的相互作用较弱以及在形成与分子的接触时氙在尖端上的强烈弛豫，不能诱导反应。

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力致单个分子中的互变异构。

Force-induced tautomerization in a single molecule.

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