Synchronously improved luminescence efficiency and thermal stability of organic–inorganic chloride single crystals through doping of Sb3+†

IF 2.7 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY New Journal of Chemistry Pub Date : 2024-11-06 DOI:10.1039/D4NJ04101A

Zongqi Chen, Aibo Li, Yushan Xie, Haoqi Long, Qiang Zhou, Long Jiang, Peng Ren and Zhengliang Wang

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Abstract

Herein, (CH₃)₄NMnCl₃ doped with Sb³⁺ single crystals were grown at room temperature. The crystal structure was confirmed by the single-crystal X-ray diffraction at 293 K. The doping of Sb³⁺ not only improves the excitation intensity in the blue-light region but also red emission only from Mn²⁺. The emission intensity (I_e) of (CH₃)₄NMnCl₃:0.5%Sb³⁺ is about 1.5 times higher than that of (CH₃)₄NMnCl₃. The internal and external quantum yield (IQY and EQY) values excited by 450 nm light for the former are 78.6% and 16.0%, which are much higher than those of the latter (56.3% and 10.7%), indicating that Sb³⁺ can effectively transfer energy to Mn²⁺. Moreover, the doping of Sb³⁺ is beneficial to the thermal stability. The I_e of (CH₃)₄NMnCl₃:0.5%Sb³⁺ at 150 °C is about 1.2 times higher than that of (CH₃)₄NMnCl₃ at 25 °C. Meanwhile, the white LED based on (CH₃)₄NMnCl₃:0.5%Sb³⁺ also exhibits good optoelectronic performance. Hence, this work provides a new strategy to explore hybrid manganese(II) chlorides for white LEDs.

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通过掺杂 Sb3+† 同步提高有机-无机氯化物单晶的发光效率和热稳定性

掺杂 Sb3+ 的 (CH3)4NMnCl3 单晶在室温下生长。Sb3+ 的掺入不仅提高了蓝光区域的激发强度，而且还提高了 Mn2+ 的红光发射。(CH3)4NMnCl3:0.5%Sb3+的发射强度（Ie）是(CH3)4NMnCl3的约1.5倍。前者在 450 纳米光激发下的内外量子产率（IQY 和 EQY）值分别为 78.6% 和 16.0%，远高于后者（56.3% 和 10.7%），表明 Sb3+ 能有效地将能量转移给 Mn2+。此外，Sb3+ 的掺杂有利于热稳定性。(CH3)4NMnCl3:0.5%Sb3+ 在 150 °C 时的 Ie 比 (CH3)4NMnCl3 在 25 °C 时的 Ie 高出约 1.2 倍。同时，基于 (CH3)4NMnCl3:0.5%Sb3+ 的白光 LED 也表现出良好的光电性能。因此，这项工作为探索用于白光 LED 的混合锰（II）氯化物提供了一种新策略。

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