Stimuli-responsive photoluminescent copper(I) halides for scintillation, anticounterfeiting, and light-emitting diode applications

IF 13.9 Q1 CHEMISTRY, MULTIDISCIPLINARY
Dilruba A. Popy, Yashpal Singh, Yauhen Tratsiak, Abby M. Cardoza, John M. Lane, Luis Stand, Mariya Zhuravleva, Neeraj Rai, Bayram Saparov
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引用次数: 0

Abstract

Highly sensitive stimuli-responsive luminescent materials are crucial for applications in optical sensing, security, and anticounterfeiting. Here, we report two zero-dimensional (0D) copper(I) halides, (TEP)2Cu2Br4, (TEP)2Cu4Br6, and 1D (TEP)3Ag6Br9, which are comprised of isolated [Cu2Br4]2−, [Cu4Br6]2−, and [Ag6Br9]3− polyanions, respectively, separated by TEP+ (tetraethylphosphonium [TEP]) cations. (TEP)2Cu2Br4 and (TEP)2Cu4Br6 demonstrate greenish-white and orange-red emissions, respectively, with near unity photoluminescence quantum yields, while (TEP)3Ag6Br9 is a poor light emitter. Optical spectroscopy measurements and density-functional theory calculations reveal that photoemissions of these compounds originate from self-trapped excitons due to the excited-state distortions in the copper(I) halide units. Crystals of Cu(I) halides are radioluminescence active at room temperature under both X- and γ-rays exposure. The light yields up to 15,800 ph/MeV under 662 keV γ-rays of 137Cs suggesting their potential for scintillation applications. Remarkably, (TEP)2Cu2Br4 and (TEP)2Cu4Br6 are interconvertible through chemical stimuli or reverse crystallization. In addition, both compounds demonstrate luminescence on-off switching upon thermal stimuli. The sensitivity of (TEP)2Cu2Br4 and (TEP)2Cu4Br6 to the chemical and thermal stimuli coupled with their ultrabright emission allows their consideration for applications such as solid-state lighting, sensing, information storage, and anticounterfeiting.

Abstract Image

Abstract Image

用于闪烁、防伪和发光二极管的刺激响应型光致发光铜(I)卤化物
高灵敏度的刺激响应型发光材料对于光学传感、安全和防伪领域的应用至关重要。在此,我们报告了两种零维(0D)卤化铜(I),即 (TEP)2Cu2Br4、(TEP)2Cu4Br6 和 1D (TEP)3Ag6Br9,它们分别由孤立的 [Cu2Br4]2-、[Cu4Br6]2- 和 [Ag6Br9]3- 聚阴离子组成,并由 TEP+(四乙基膦 [TEP])阳离子隔开。(TEP)2Cu2Br4和(TEP)2Cu4Br6分别发出绿白色和橙红色光,光致发光量子产率接近统一,而(TEP)3Ag6Br9的发光效果较差。光学光谱测量和密度泛函理论计算显示,这些化合物的光辐射源于卤化铜(I)单元激发态畸变导致的自俘获激子。在室温条件下,卤化铜(I)晶体在 X 射线和γ 射线照射下都具有放射性发光活性。在 137Cs 的 662 keV γ 射线下,光产率高达 15,800 ph/MeV,这表明它们具有闪烁应用的潜力。值得注意的是,(TEP)2Cu2Br4 和 (TEP)2Cu4Br6 可通过化学刺激或反向结晶相互转换。此外,这两种化合物在热刺激下都会出现发光开关。(TEP)2Cu2Br4和(TEP)2Cu4Br6对化学刺激和热刺激的敏感性加上它们的超亮发射,使它们可以被考虑用于固态照明、传感、信息存储和防伪等应用。
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来源期刊
CiteScore
17.40
自引率
0.00%
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审稿时长
7 weeks
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