Tailoring exciton and excimer emission in an exfoliated ultrathin 2D metal-organic framework

Tailoring exciton and excimer emission in an exfoliated ultrathin 2D metal-organic framework

Two-dimensional (2D) metal–organic frameworks have exhibited a range of fascinating attributes, of interest to numerous fields. Here, a calcium-based metal-organic framework with a 2D layered structure has been designed. Dual emissions relating to intralayer excimers and interlayer trapped excitons...

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Bibliographic Details
Published in:Nature communications Vol. 9; no. 1; pp. 2401 - 9
Main Authors: Liao, Wei-Ming, Zhang, Jian-Hua, Yin, Shao-Yun, Lin, He, Zhang, Xingmin, Wang, Jihong, Wang, Hai-Ping, Wu, Kai, Wang, Zheng, Fan, Ya-Nan, Pan, Mei, Su, Cheng-Yong
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 19-06-2018
Nature Publishing Group
Nature Portfolio
Subjects:
639/624/399
639/638/298/398
639/638/298/921
Calcium
Emission
Emissions
Excimers
Excitation
Excitons
Exfoliation
Genetic transformation
Humanities and Social Sciences
Interlayers
Metal-organic frameworks
Molecular chains
Morphology
multidisciplinary
Optical memory (data storage)
Science
Science (multidisciplinary)
Two dimensional models
Ultrasound
Van der Waals forces
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Summary:Two-dimensional (2D) metal–organic frameworks have exhibited a range of fascinating attributes, of interest to numerous fields. Here, a calcium-based metal-organic framework with a 2D layered structure has been designed. Dual emissions relating to intralayer excimers and interlayer trapped excitons are produced, showing excitation-dependent shifting tendency, characteristic of a low dimensional semiconductor nature. Furthermore, the layer stacking by weak van der Waals forces among dynamically coordinated DMF molecules enables exfoliation and morphology transformation, which can be achieved by ultrasound in different ratios of DMF/H 2 O solvents, or grinding under appropriate humidity conditions, leading to nano samples including ultrathin nanosheets with single or few coordination layers. The cutting down of layer numbers engenders suppression of interlayer exciton-related emission, resulting in modulation of the overall emitting color and optical memory states. This provides a rare prototypical model with switchable dual-channel emissions based on 2D-MOFs, in which the interlayer excitation channel can be reversibly tuned on/off by top-down exfoliation and morphology transformation. Two dimensional (2D) metal-organic frameworks have demonstrated unique photophysical properties compared to their bulk analogs. Here, the authors demonstrate that exfoliation of 2D MOFs can suppress interlayer exciton-related emission, allowing for modulation of the overall emission color and switching of optical memory states.
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ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-018-04833-1