功能偶氮杯芳烃内部和外部硼掺杂引发窄带延迟荧光(Advanced Optical Materials 26/2025)

IF 7.2 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Sudhir K. Keshri, Hiroko Nomura, Takuma Yasuda
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引用次数: 0

摘要

杜鹃花[3]芳烃的内外硼掺杂定向硼化策略可以实现功能杜鹃花[3]芳烃的内外硼掺杂,产生两种不同的MR-TADF发光基团。向内掺杂的化合物发出尖锐的紫光,而向外的硼化产生高效的蓝色电致发光。这种区域选择性方法为具有可调谐窄带发射的OLED材料提供了先进的设计可能性。更多细节可以在文章10.1002/adom中找到。2501193 Sudhir K. Keshri, Hiroko Nomura和Takuma Yasuda。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Interior and Exterior Boron Doping in Functional Azacalixarenes Triggering Narrowband Delayed Fluorescence (Advanced Optical Materials 26/2025)

Interior and Exterior Boron Doping in Functional Azacalixarenes Triggering Narrowband Delayed Fluorescence (Advanced Optical Materials 26/2025)

Interior and Exterior Boron Doping in Functional Azacalixarenes Triggering Narrowband Delayed Fluorescence (Advanced Optical Materials 26/2025)

Interior and Exterior Boron Doping in Functional Azacalixarenes Triggering Narrowband Delayed Fluorescence (Advanced Optical Materials 26/2025)

Interior and Exterior Boron Doping in Functional Azacalixarenes Triggering Narrowband Delayed Fluorescence (Advanced Optical Materials 26/2025)

Interior versus Exterior Boron Doping in Azacalix[3]arenes

A directional borylation strategy enables interior and exterior boron doping of functional azacalix[3]arene, producing two distinct MR-TADF luminophores. The inward-doped compound emits sharp violet light, while outward borylation yields highly efficient blue electroluminescence. This regioselective approach unlocks advanced design possibilities for OLED materials with tunable narrowband emission. More details can be found in article 10.1002/adom.2501193 by Sudhir K. Keshri, Hiroko Nomura, and Takuma Yasuda.

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来源期刊
Advanced Optical Materials
Advanced Optical Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-OPTICS
CiteScore
13.70
自引率
6.70%
发文量
883
审稿时长
1.5 months
期刊介绍: Advanced Optical Materials, part of the esteemed Advanced portfolio, is a unique materials science journal concentrating on all facets of light-matter interactions. For over a decade, it has been the preferred optical materials journal for significant discoveries in photonics, plasmonics, metamaterials, and more. The Advanced portfolio from Wiley is a collection of globally respected, high-impact journals that disseminate the best science from established and emerging researchers, aiding them in fulfilling their mission and amplifying the reach of their scientific discoveries.
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