Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal–organic framework

Hypersensitive dual-function luminescence switching of a silver-chalcogenolate cluster-based metal–organic framework

Silver( i ) chalcogenide/chalcogenolate clusters are promising photofunctional materials for sensing, optoelectronics and solar energy harvesting applications. However, their instability and poor room-temperature luminescent quantum yields have hampered more extensive study. Here, we graft such clus...

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Veröffentlicht in:Nature chemistry 2017-07, Vol.9 (7), p.689-697
Hauptverfasser: Huang, Ren-Wu, Wei, Yong-Sheng, Dong, Xi-Yan, Wu, Xiao-Hui, Du, Chen-Xia, Zang, Shuang-Quan, Mak, Thomas C. W.
Format: Artikel
Sprache:eng
Schlagworte:
639/638/541/961
639/638/911
Analytical Chemistry
Biochemistry
Chemistry
Chemistry/Food Science
Clusters
Energy harvesting
Fluorescence
Grafting
Inorganic Chemistry
Ligands
Luminescence
Metal-organic frameworks
Metals
Optoelectronics
Organic Chemistry
Organic compounds
Physical Chemistry
Separation
Silver
Single crystals
Solar energy
Stability
Switching
Temperature effects
VOCs
Volatile organic compounds
X-ray diffraction
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Zusammenfassung:Silver( i ) chalcogenide/chalcogenolate clusters are promising photofunctional materials for sensing, optoelectronics and solar energy harvesting applications. However, their instability and poor room-temperature luminescent quantum yields have hampered more extensive study. Here, we graft such clusters to adaptable bridging ligands, enabling their interconnection and the formation of rigid metal–organic frameworks. By controlling the spatial separation and orientation of the clusters, they then exhibit enhanced stability (over one year) and quantum yield (12.1%). Ultrafast dual-function fluorescence switching (
ISSN:1755-4330
1755-4349
DOI:10.1038/nchem.2718