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Photonic hybrid crystals constructed from in situ host–guest nanoconfinement of a light-emitting complex in metal–organic framework pores

DOI: 10.1039/C6NR01122E DOI Help

Authors: Abhijeet Chaudhari (University of Oxford) , Matthew Ryder (Department of Engineering Science, University of Oxford) , Jin-chong Tan (University of Oxford)
Co-authored by industrial partner: No

Type: Journal Paper
Journal: Nanoscale

State: Published (Approved)
Published: February 2016

Abstract: We report the concept underpinning the facile nanoconfinement of a bulky luminous guest molecule in the pores of a metal–organic framework (MOF) host, which yields a hybrid host ⊃ guest nanomaterial with tunable opto-electronic characteristics and enhanced photostability. Utilizing an in situ host–guest confinement strategy enabled by molecular self-assembly, we show that the highly emitting ZnQ [Zn-(bis-8-hydroxyquinoline)] guest complexes could be rapidly encapsulated within the sodalite nanocages of zeolitic imidazolate framework (ZIF-8) host crystals. The nature of optical and electronic transitions phenomena of the guest-encapsulated ZIF-8 ⊃ ZnQ has been elucidated by means of fluorescence and absorption spectroscopy measurements, and substantiated further via theoretical molecular orbital calculations revealing the plausible host–guest charge transfer mechanism involved. Evidence suggests that its photophysical properties are not only strongly determined by the host–guest co-operative bonding interactions within the environment of the confined MOF nanocage, but also can be engineered to manipulate its emission color chromaticity or to shield light-sensitive emitting guests against rapid photochemical degradation.

Subject Areas: Engineering

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