Harnessing substituent and aggregation-induced effects for color-tunable emission in borafluorenium ions

IF 5.1 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of Materials Chemistry C Pub Date : 2025-08-26 DOI:10.1039/D5TC02785C

Nathan C. Frey, Kimberly K. Hollister, Caleb C. Taylor, Nula Jones, Diane A. Dickie and Robert J. Gilliard

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Abstract

Once considered a “laboratory curiosity”, cyclic borenium ions have recently been shown to exhibit tunable emission and stimuli-responsive properties. Utilizing hexaphenylcarbodiphosphorane (CDP), a series of borafluorenium and 3,3′-dimethoxyborafluorenium ions were synthesized to determine the impacts of counteranion and substituent effects on the optical properties and stability of borafluorenium ions. Clear relationships were established between structure and properties, with emission wavelengths of the borafluorenium ions ranging from yellow (λ_em = 559 nm) to red (λ_em = 650 nm). By employing density functional theory, a possible mechanism for the observed luminescent behavior was proposed. These compounds were shown to exhibit aggregation-induced emission (AIE) properties and significant changes in solid-state emission color when compared to those observed in solution. The AIE properties of a CDP–borafluorenium ion with dimethoxy substitution were further explored by perturbing the temperature in solution, which resulted in a clear shift in emission wavelength from 563 nm (yellow, 20 °C) to 513 nm (green, −90 °C).

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利用取代基和聚集诱导效应在硼氟离子中进行颜色可调发射

曾经被认为是“实验室的好奇心”，环硼离子最近被证明具有可调的发射和刺激响应特性。以六苯基碳二磷烷（CDP）为原料，合成了一系列的硼氟离子和3,3′-二甲氧基硼氟离子，研究了反阴离子和取代基效应对硼氟离子光学性质和稳定性的影响。硼氟离子的发射波长范围从黄色（λem = 559 nm）到红色（λem = 650 nm），结构与性能之间建立了明确的关系。利用密度泛函理论，提出了观察到的发光行为的可能机制。与在溶液中观察到的化合物相比，这些化合物显示出聚集诱导发射（AIE）特性和固态发射颜色的显着变化。通过对溶液温度的扰动，进一步研究了二甲氧基取代的cdp -硼氟离子的AIE性质，发现发射波长从563 nm（黄色，20°C）明显转变为513 nm（绿色，- 90°C）。

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来源期刊

Journal of Materials Chemistry C MATERIALS SCIENCE, MULTIDISCIPLINARY-PHYSICS, APPLIED

CiteScore

10.80

自引率

6.20%

发文量

1468

期刊介绍： The Journal of Materials Chemistry is divided into three distinct sections, A, B, and C, each catering to specific applications of the materials under study: Journal of Materials Chemistry A focuses primarily on materials intended for applications in energy and sustainability. Journal of Materials Chemistry B specializes in materials designed for applications in biology and medicine. Journal of Materials Chemistry C is dedicated to materials suitable for applications in optical, magnetic, and electronic devices. Example topic areas within the scope of Journal of Materials Chemistry C are listed below. This list is neither exhaustive nor exclusive. Bioelectronics Conductors Detectors Dielectrics Displays Ferroelectrics Lasers LEDs Lighting Liquid crystals Memory Metamaterials Multiferroics Photonics Photovoltaics Semiconductors Sensors Single molecule conductors Spintronics Superconductors Thermoelectrics Topological insulators Transistors