Highly efficient luminescence from boron β-dialdiminates and their π-conjugated polymers in both solutions and solids: significant impact of the substituent position on luminescence behavior†

IF 6 2区 材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Shunichiro Ito, Miyako Hashizume, Hideo Taka, Hiroshi Kita, Kazuo Tanaka and Yoshiki Chujo
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Abstract

Four-coordinated boron complexes are fascinating scaffolds for achieving functional luminescent materials because of their superior emission properties, biocompatibility, and stimuli responsiveness. This class of complexes occasionally exhibits aggregation- or crystallization-induced emission (AIE or CIE) properties in contrast to typical organic chromophores which show aggregation-caused quenching (ACQ). However, in some cases, slight structural modification of the complexes results in drastic changes between AIE/CIE and ACQ. Therefore, there is much room for unveiling the structure–property relationships of this class of complexes. Herein, we developed β-dialdiminate boron complexes with highly efficient fluorescence not only in crystalline states but also in the solution and amorphous states. In stark contrast, we previously reported that β-diketiminate boron complexes exhibit the CIE properties. The structural difference between them is characterized only by the substituents on the imine carbons. Theoretical calculations suggest that the excitons of the β-diketiminate complexes in solutions could be quenched through large structural deformation connecting to conical intersections, while the β-dialdiminate structures could expel such structural changes. Importantly, the absolute photoluminescence quantum yields of the β-dialdiminate boron complexes are up to 96% for crystals, 75% for solutions, 83% for amorphous films, and 76% in a polymer matrix. We applied these robust luminophores to fabricate organic light-emitting devices and to synthesize π-conjugated polymers with strong fluorescence in solutions and films. Our findings can unlock opportunities for designing new robustly luminescent materials based on chromophores which have been used only in either solution or solid states until now.

Abstract Image

溶液和固体中硼β-二酰亚胺盐及其π-共轭聚合物的高效发光:取代基位置对发光行为的显著影响†
四配位硼配合物由于其优异的发射性能、生物相容性和刺激响应性,是实现功能性发光材料的迷人支架。这类配合物偶尔表现出聚集或结晶诱导的发射(AIE或CIE)特性,而典型的有机发色团表现出聚集引起的猝灭(ACQ)。然而,在某些情况下,配合物的轻微结构修饰会导致AIE/CIE和ACQ之间的剧烈变化。因此,揭示这类综合体的结构-性质关系有很大的空间。在此,我们开发了不仅在结晶态,而且在溶液和非晶态都具有高效荧光的β-二酰亚胺硼配合物。与此形成鲜明对比的是,我们之前报道了β-二酮亚胺化硼配合物表现出CIE性质。它们之间的结构差异仅通过亚胺碳上的取代基来表征。理论计算表明,β-二酮亚胺盐络合物在溶液中的激子可以通过连接到锥形交叉点的大的结构变形而猝灭,而β-二二酮亚胺酸盐结构可以排出这种结构变化。重要的是,β-二亚胺盐-硼络合物的绝对光致发光量子产率在晶体中高达96%,在溶液中高达75%,在非晶膜中高达83%,在聚合物基体中高达76%。我们将这些坚固的发光体应用于制造有机发光器件,并在溶液和薄膜中合成具有强荧光的π-共轭聚合物。我们的发现可以为设计基于发色团的新型坚固发光材料提供机会,迄今为止,发色团仅用于溶液或固态。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Materials Chemistry Frontiers
Materials Chemistry Frontiers Materials Science-Materials Chemistry
CiteScore
12.00
自引率
2.90%
发文量
313
期刊介绍: Materials Chemistry Frontiers focuses on the synthesis and chemistry of exciting new materials, and the development of improved fabrication techniques. Characterisation and fundamental studies that are of broad appeal are also welcome. This is the ideal home for studies of a significant nature that further the development of organic, inorganic, composite and nano-materials.
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