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- Title
Observation of formation and local structures of metal-organic layers via complementary electron microscopy techniques.
- Authors
Peng, Xinxing; Pelz, Philipp M.; Zhang, Qiubo; Chen, Peican; Cao, Lingyun; Zhang, Yaqian; Liao, Hong-Gang; Zheng, Haimei; Wang, Cheng; Sun, Shi-Gang; Scott, Mary C.
- Abstract
Metal-organic layers (MOLs) are highly attractive for application in catalysis, separation, sensing and biomedicine, owing to their tunable framework structure. However, it is challenging to obtain comprehensive information about the formation and local structures of MOLs using standard electron microscopy methods due to serious damage under electron beam irradiation. Here, we investigate the growth processes and local structures of MOLs utilizing a combination of liquid-phase transmission electron microscopy, cryogenic electron microscopy and electron ptychography. Our results show a multistep formation process, where precursor clusters first form in solution, then they are complexed with ligands to form non-crystalline solids, followed by the arrangement of the cluster-ligand complex into crystalline sheets, with additional possible growth by the addition of clusters to surface edges. Moreover, high-resolution imaging allows us to identify missing clusters, dislocations, loop and flat surface terminations and ligand connectors in the MOLs. Our observations provide insights into controllable MOL crystal morphology, defect engineering, and surface modification, thus assisting novel MOL design and synthesis. Obtaining information about the structure of metal-organic layers (MOLs) using standard electron microscopy methods is challenging due to damage under electron beam irradiation. Here, the authors reveal a multistep formation process of MOLs and identify missing clusters, dislocations, loop and flat surface terminations and ligand connector of MOLs via complementary electron microscopy techniques.
- Subjects
ELECTRON microscope techniques; ELECTRON beams; TRANSMISSION electron microscopy; ELECTRON microscopy; AMORPHOUS substances; CRYSTAL morphology
- Publication
Nature Communications, 2022, Vol 13, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-022-32330-z