Shoya Sekiguchi scite author profile

A V-shaped bisanthracene derivative with three butyl groups formed two types of emissive solids that display bluish green and blue fluorescence (ΦF =72 and 32 %, respectively), depending on the preparation conditions. The crystal and powder X-ray analyses reveal that the highly emissive solid adopts a head-to-head arrangement with discrete stacks of the anthracene moieties, whereas the moderately emissive solid adopts a head-to-tail arrangement without the stacks. The obtained molecular arrangements are transformed by thermal stimuli accompanying the change in fluorescence. Furthermore, large enhancements of dye emissions (12-45-fold) through highly efficient host-guest energy transfer were achieved in the solid state by adding minute amounts of various fluorescent dyes (e.g. rubrene and Nile red) to the V-shaped compound.

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Do wooden pile breakwaters work for community-based coastal protection?

Takagi

Sekiguchi

Thao

et al. 2020

J Coast Conserv

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Engineering Stacks of V‐Shaped Polyaromatic Compounds with Alkyl Chains for Enhanced Emission in the Solid State

et al. 2016

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AV-shaped bisanthracene derivative with three butyl groups formed two types of emissive solids that displaybluish green and blue fluorescence (F F = 72 and 32 %, respectively), depending on the preparation conditions.T he crystal and powder X-raya nalyses reveal that the highly emissive solid adopts ah ead-to-head arrangement with discrete stacks of the anthracene moieties,w hereas the moderately emissive solid adopts ah ead-to-tail arrangement without the stacks.T he obtained molecular arrangements are transformed by thermal stimuli accompanying the change in fluorescence.F urthermore,l arge enhancements of dye emissions (12-45-fold) through highly efficient host-guest energy transfer were achieved in the solid state by adding minute amounts of various fluorescent dyes (e.g. rubrene and Nile red) to the Vshaped compound.Polyaromatic compounds with peripheral substituents often form well-ordered columnar stacks in the solid state (Figure 1a).[1] However,t he emissive ability of the polyaromatic moieties found in dilute solutions is apt to be lost or weakened in such infinite structures owing to nonradiative decay of the excited states through extensive aromatic-aromatic interactions.F ull encirclement of polyaromatic compounds by molecular capsules [2,3] or bulky substituents [4][5][6] can prevent infinite stacking of the fluorophores (Figure 1b)sothat most of them show simple emissions from the monomeric species. In contrast, dimeric stacks of polyaromatic molecules have received considerable attention, because their structures sometimes exhibit intriguing fluorescence behavior derived from the formation of excimers. [7] However,t here is no general and rational approach to prepare highly fluorescent dimeric stacks of polyaromatic compounds through noncovalent interactions.[8] To exploit anew class of polyaromatic solids with agreater emissive ability,wedesigned aV -shaped polyaromatic compound bearing bulky substituents on the convex side to engineer 1) the dimeric stack of the bent polyaromatic frameworks (Figure 1c)a nd 2) the layered arrays of the polyaromatic dimers through intermolecular interactions between the substituents.H ere we report the unusual emission behavior of V-shaped bisanthracene derivative 1 with three butyl groups (Figure 1d)i nt he solid state.TheV -shaped compound forms two different types of solids depending on the preparation conditions.T he solid with ah ead-to-head arrangement (Figure 1c)s hows strong bluish green fluorescence (F F = 72 %) as ac onsequence of finite stacks of the anthracene moieties.Incontrast, the other solid with ah ead-to-tail arrangement shows moderate blue fluorescence (F F = 32 %). Them olecular arrangement and emissive states can be changed by thermal stimuli. In addition, the solid-state emission properties of various fluorescent dyes (e.g. rubrene and Nile red) are greatly enhanced (12-45-fold) by mixing them with the bisanthracene derivative upon single irradiation with UV light (e.g. l = 368 nm), because of highly efficient energy transfer from ...

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Novel Isotropic Film for 5G Application

Koh

Yoneda

Nakada

et al. 2022

Transactions of The Japan Institute of Electronics Packaging

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Three-Dimensional Hydrodynamic Analysis Around Cylindrical Rows in Shallow Waters and Verificarion of Accueacy by Wave Experiments

Sekiguchi¹,

Takagi²

2018

J. JSCE Ser. B3

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Shoya Sekiguchi

Engineering Stacks of V‐Shaped Polyaromatic Compounds with Alkyl Chains for Enhanced Emission in the Solid State

Do wooden pile breakwaters work for community-based coastal protection?

Engineering Stacks of V‐Shaped Polyaromatic Compounds with Alkyl Chains for Enhanced Emission in the Solid State

Novel Isotropic Film for 5G Application

Three-Dimensional Hydrodynamic Analysis Around Cylindrical Rows in Shallow Waters and Verificarion of Accueacy by Wave Experiments

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