AI Article Synopsis
- The coordination between small molecules and metalloporphyrins is essential for processes like bio-oxidation and catalytic activation, with their structures studied through various techniques for decades.
- High-resolution scanning tunneling microscopy (STM) was used to capture images of small molecules (O2, NO2, NH3) coordinated to Co-porphyrin on a gold surface, revealing distinct structural arrangements for each molecule at low temperatures.
- The observed symmetries in the STM images were successfully matched with density functional theory (DFT) calculations, demonstrating that high-resolution techniques can effectively visualize the structures of these coordinated small molecules.
Article Abstract
The coordination structure between small molecules and metalloporphyrins plays a crucial role in functional reactions such as bio-oxidation and catalytic activation. Their vertical, tilting, and dynamic structures have been actively studied with diffraction and resonance spectroscopy for the past four decades. Contrastingly, real-space visualization beyond simple protrusion and depression is relatively rare. In this paper, high-resolution scanning tunnelling microscopy (STM) images are presented of di-, tri-, and tetra-atomic small molecules (O2, NO2, and NH3, respectively) coordinated to Co-porphyrin on Au(111). A square ring structure was observed for O2, a rectangular ring structure for NO2, and a bright-center structure for NH3 at 80 K. The symmetries of experimental STM images were reproduced in density functional theory (DFT) calculations, considering the precession motion of the small molecules. Thus, this study shows that the structure of small molecules coordinated to metalloporphyrins can be visualized using high-resolution STM and DFT calculations.
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| http://dx.doi.org/10.1039/c9nr00843h | DOI Listing |
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