Pieter J. Keenan, Rebecca M. Purkiss, Tillmann Klamroth, Peter A. Sloan, Kristina R. Rusimova
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引用次数: 0
摘要
以分子为单位对物质进行编程是纳米科学的一个长期目标。扫描隧道显微镜(STM)的原子分辨率可以控制诱导单结果单分子反应的概率。在这里,我们展示了测量和影响具有多重竞争结果的单分子反应结果的可能性。通过从 STM 针尖精确注入电子,甲苯分子被诱导发生两种结果的反应:切换到相邻位点或解吸。在分子表面系统的电子结构所设定的电压范围内,我们发现这两种结果之间的分支比取决于激发电子所携带的过剩能量。利用已知值、ab initio DFT 计算和经验模型,我们得出结论:过剩能量会导致共同的中间物理吸附态加热,并通过其能障和前置因子控制这两种结果。
Measuring competing outcomes of a single-molecule reaction reveals classical Arrhenius chemical kinetics
Programming matter one molecule at a time is a long-standing goal in nanoscience. The atomic resolution of a scanning tunnelling microscope (STM) can give control over the probability of inducing single-outcome single-molecule reactions. Here we show it is possible to measure and influence the outcome of a single-molecule reaction with multiple competing outcomes. By precise injection of electrons from an STM tip, toluene molecules are induced to react with two outcomes: switching to an adjacent site or desorption. Within a voltage range set by the electronic structure of the molecule-surface system, we see that the branching ratio between these two outcomes is dependent on the excess energy the exciting electron carries. Using known values, ab initio DFT calculations and empirical models, we conclude that this excess energy leads to a heating of a common intermediate physisorbed state and gives control over the two outcomes via their energy barriers and prefactors.
期刊介绍:
Nature Communications, an open-access journal, publishes high-quality research spanning all areas of the natural sciences. Papers featured in the journal showcase significant advances relevant to specialists in each respective field. With a 2-year impact factor of 16.6 (2022) and a median time of 8 days from submission to the first editorial decision, Nature Communications is committed to rapid dissemination of research findings. As a multidisciplinary journal, it welcomes contributions from biological, health, physical, chemical, Earth, social, mathematical, applied, and engineering sciences, aiming to highlight important breakthroughs within each domain.
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