由金属有机配位数决定的数字化电荷转移量。

Digitized charge transfer magnitude determined by metal-organic coordination number.

机构信息

Department of Physics, National Taiwan University, Taipei, Taiwan.

出版信息

ACS Nano. 2013 Mar 26;7(3):2814-9. doi: 10.1021/nn4003715. Epub 2013 Mar 8.

Abstract

Well-ordered metal-organic nanostructures of Fe-PTCDA (perylene-3,4,9,10-tetracarboxylic-3,4,9,10-dianhydride) chains and networks are grown on a Au(111) surface. These structures are investigated by high-resolution scanning tunneling microscopy. Digitized frontier orbital shifts are followed in scanning tunneling spectroscopy. By comparing the frontier energies with the molecular coordination environments, we conclude that the specific coordination affects the magnitude of charge transfer onto each PTCDA in the Fe-PTCDA hybridization system. A basic model is derived, which captures the essential underlying physics and correlates the observed energetic shift of the frontier orbital with the charge transfer.

摘要

有序的 Fe-PTCDA（苝-3,4,9,10-四羧酸酐）链和网络的金属有机纳米结构在 Au(111)表面生长。这些结构通过高分辨率扫描隧道显微镜进行研究。在扫描隧道光谱中跟踪了前沿轨道的数字化位移。通过将前沿能量与分子配位环境进行比较，我们得出结论，特定的配位会影响每个 PTCDA 在 Fe-PTCDA 杂化系统中的电荷转移量。得出了一个基本模型，该模型捕获了基本的潜在物理，并将观察到的前沿轨道的能量位移与电荷转移相关联。

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由金属有机配位数决定的数字化电荷转移量。

Digitized charge transfer magnitude determined by metal-organic coordination number.

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由金属有机配位数决定的数字化电荷转移量。

Digitized charge transfer magnitude determined by metal-organic coordination number.

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出版信息

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