Reversible Switching of the Emission of Diphenyldibenzofulvenes by Thermal and Mechanical Stimuli

Luo, Xichun; Li, Jienian; Li, Chun‐Zhu; Heng, Liping; Dong, Yong Qiang; Liu, Zheng­ping; Bo, Zhishan; Tang, Ben Zhong

doi:10.1002/adma.201101059

Cited by 613 publications

(294 citation statements)

References 46 publications

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“…Recently, luminescent materials that are responsive to mechanical stimuli have attracted considerable attention because they have the unique ability to tune their molecular, physical or chemical properties via macroscopic stimulation [5][6][7][8] . Several mechanistic explanations for the mechanically stimulated changes in the colour of the luminescence have been proposed: a phase transformation of the solid structure [9][10][11][12][13][14][15][16] , excimer formation or dissolution [17][18][19] and mechanical stress-induced chemical changes 20,21 . However, the development of new materials with luminescent mechanochromism still depends heavily on serendipitous discovery or random screening; studies based on rationally designed luminophoric compounds and sensitivity to mechanical stimuli remains rare.…”

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confidence: 99%

Design amphiphilic dipolar π-systems for stimuli-responsive luminescent materials using metastable states

et al. 2014

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p-Conjugated compounds that exhibit tunable luminescence in the solid state under external mechanical stimuli have potential applications in sensors and imaging devices. However, no rational designs have been proposed that impart these mechano-responsive luminescent properties to p-conjugated compounds. Here we demonstrate a strategy for mechanoresponsive luminescent materials by imparting amphiphilic and dipolar characteristics to a luminescent p-conjugated system. The oligo(p-phenylenevinylene) luminophore with a didodecylamino group at one end and a tri(ethylene glycol) ester group at the other end yields segregated solid structures by separately aggregating its hydrophobic and hydrophilic moieties. The segregated structures force the molecules to align in the same direction, thereby generating a conflict between the side-chain aggregation and dipolar stabilization of the p-system. Consequently, these metastable solid structures can be transformed through mechanical stimulation to a more stable structure, from a p-p stacked aggregate to a liquid crystal and further to a crystalline phase with variable luminescence.

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confidence: 99%

Design amphiphilic dipolar π-systems for stimuli-responsive luminescent materials using metastable states

et al. 2014

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“…随后, 一些其他的具有力致变色的 AIE 化合物被报道, 例如, 具有烷基链或苯基的二苯基二苯芴乙烯 [34,35] , 具有咔唑或烷基链的四苯乙烯 [36,37] , 苯丙烯腈 [38,39] 和二乙烯蒽衍生物 [40～42] . 这些研究表明具有高度扭曲立体构型的共轭分子是潜在的新型力致变色性能 AIE 材料的候选者 [8] .…”

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Design, Synthesis and Characterization of Triarylacrylonitrile Compounds Exhibiting Aggregation-Induced Emission and High Contrast Reversible Mechanochromism

Mao¹,

Chen²,

Ouyang³

et al. 2014

Chin. J. Org. Chem.

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“…A mechanically induced conversion from crystalline to amorphous induces a molecular rearrangement which permits greater rotational freedom to form excimeric or intermolecular charge-transfer species. Dong, Tang, and coworkers reported unusual aggregation-induced emission for diphenyldibenzofulvene molecules 13 [74].…”

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Nanophotonics and supramolecular chemistry

Ariga¹,

Komatsu

Hill³

2013

Nanophotonics

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Supramolecular chemistry has become a key area in emerging bottom-up nanoscience and nanotechnology. In particular, supramolecular systems that can produce a photonic output are increasingly important research targets and present various possibilities for practical applications. Accordingly, photonic properties of various supramolecular systems at the nanoscale are important in current nanotechnology. In this short review, nanophotonics in supramolecular chemistry will be briefly summarized by introducing recent examples of control of photonic responses of supramolecular systems. Topics are categorized according to the fundamental actions of their supramolecular systems: (i) self-assembly; (ii) recognition; (iii) manipulation.

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Reversible Switching of the Emission of Diphenyldibenzofulvenes by Thermal and Mechanical Stimuli

Cited by 613 publications

References 46 publications

Design amphiphilic dipolar π-systems for stimuli-responsive luminescent materials using metastable states

Design amphiphilic dipolar π-systems for stimuli-responsive luminescent materials using metastable states

Design, Synthesis and Characterization of Triarylacrylonitrile Compounds Exhibiting Aggregation-Induced Emission and High Contrast Reversible Mechanochromism

Nanophotonics and supramolecular chemistry

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