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W3024222952 abstract "Achieving good control over all-organic core–shell configurations represents an enormous challenge due to the difficulties in pairing appropriate constituent materials and tuning their growth kinetics. Here, we first prepare a series of structure- and color-tunable organic binary charge-transfer (CT) microtubes, and then use a seed-mediated strategy to encapsulate a pre-existing CT crystal with another one into dual-emitting core–shell heterostructures. Specific intermolecular interactions and similar molecular packing motifs among diverse CT crystals enable tunable two-photon excited fluorescence (TPEF), comparable lattice distances and small structural mismatch, which can be used to direct the rational construction of such a configuration with integrated TPEF properties. By tracking the real-time growth processes, we infer that the core–shell configuration made of all-organic CT crystals was determined depending on surface-interface energy balance and desired lattice matching. Upon incorporation of a dopant into a shell, its emission color can thus be tailored, giving more color-tunable core–shell configurations. The present two-step epitaxial strategy provides a simple yet effective approach to access a library of core–shell heterostructures, which opens a door to construct functional organic heterostructures for optoelectronic devices." @default.
W3024222952 created "2020-05-21" @default.
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W3024222952 date "2020-05-15" @default.
W3024222952 modified "2023-10-14" @default.
W3024222952 title "A General Synthetic Strategy to a Library of Luminescent All-Organic Core–Shell Microstructures" @default.
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W3024222952 cites W1995787123 @default.
W3024222952 cites W1996259855 @default.
W3024222952 cites W2001566368 @default.
W3024222952 cites W2002504689 @default.
W3024222952 cites W2006942752 @default.
W3024222952 cites W2019623007 @default.
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W3024222952 cites W2048414627 @default.
W3024222952 cites W2053393647 @default.
W3024222952 cites W2056638225 @default.
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W3024222952 cites W2090572943 @default.
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W3024222952 cites W2153227035 @default.
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W3024222952 cites W2226188670 @default.
W3024222952 cites W2302668166 @default.
W3024222952 cites W2313439273 @default.
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W3024222952 cites W2615868412 @default.
W3024222952 cites W2737240291 @default.
W3024222952 cites W2792892935 @default.
W3024222952 cites W2794169719 @default.
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W3024222952 doi "https://doi.org/10.1021/acs.chemmater.0c01184" @default.
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