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Two-dimensional tessellation by molecular tiles constructed from halogen-halogen and halogen-metal networks.


ABSTRACT: Molecular tessellations are often discovered serendipitously, and the mechanisms by which specific molecules can be tiled seamlessly to form periodic tessellation remain unclear. Fabrication of molecular tessellation with higher symmetry compared with traditional Bravais lattices promises potential applications as photonic crystals. Here, we demonstrate that highly complex tessellation can be constructed on Au(111) from a single molecular building block, hexakis(4-iodophenyl)benzene (HPBI). HPBI gives rise to two self-assembly phases on Au(111) that possess the same geometric symmetry but different packing densities, on account of the presence of halogen-bonded and halogen-metal coordinated networks. Sub-domains of these phases with self-similarity serve as tiles in the periodic tessellations to express polygons consisting of parallelograms and two types of triangles. Our work highlights the important principle of constructing multiple phases with self-similarity from a single building block, which may constitute a new route to construct complex tessellations.

SUBMITTER: Cheng F 

PROVIDER: S-EPMC6242836 | biostudies-other | 2018 Nov

REPOSITORIES: biostudies-other

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Two-dimensional tessellation by molecular tiles constructed from halogen-halogen and halogen-metal networks.

Cheng Fang F   Wu Xue-Jun XJ   Hu Zhixin Z   Lu Xuefeng X   Ding Zijing Z   Shao Yan Y   Xu Hai H   Ji Wei W   Wu Jishan J   Loh Kian Ping KP  

Nature communications 20181119 1


Molecular tessellations are often discovered serendipitously, and the mechanisms by which specific molecules can be tiled seamlessly to form periodic tessellation remain unclear. Fabrication of molecular tessellation with higher symmetry compared with traditional Bravais lattices promises potential applications as photonic crystals. Here, we demonstrate that highly complex tessellation can be constructed on Au(111) from a single molecular building block, hexakis(4-iodophenyl)benzene (HPBI). HPBI  ...[more]

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