Efficient preparation strategy of high quantum yield multicolor CDs for warm white LED

IF 13.2 1区工程技术 Q1 ENGINEERING, CHEMICAL

Chemical Engineering Journal Pub Date : 2024-04-03 DOI:10.1016/j.cej.2024.150980

Haiyan Bai , Xilang Jin , Xuehao Ma , Yaoxiao Zhao , Haozhe Wang , Jiajia Yu , Liu Ding , Chenhui Wei , Hongwei Zhou , Weixing Chen

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Abstract

Multicolor carbon dots (CDs) possess tremendous potential applications, especially in optoelectronic devices. However, further applications in warm white LED have been constrained due to the extremely low quantum yield (QY) of multicolor CDs. In this work, fluorescence enhancement multicolor CDs (o-CDs(cat.) (emitted yellow, Em = 550 nm, QY = 85.4 %), m-CDs(cat.) (emitted blue, Em = 440 nm, QY = 35.7 %), p-CDs(cat.) (emitted red, Em = 610 nm, QY = 73.8 %)) with almost 15 % QY improvement, without changing the fluorescence emission wavelength, was successfully achieved by introducing MnSO₄ into the reaction system. The relevant mechanism may be the catalytic effect of MnSO₄, which leads to the increased content of C = N and pyridine N, further suppressing non radiative transitions, leading to the increasement of QY. Finally, the obtained high QY multicolor CDs were applied to warm white LED with the color coordinates (CIE) of (0.33,0.36), color rendering index (CRI) of 90, correlated color temperature (CCT) of 3473 K. Laying the foundation for the research methods and mechanisms of metal ion caused high QY of CDs.

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用于暖白光 LED 的高量子产率多色 CD 的高效制备策略

多色碳点（CD）具有巨大的应用潜力，尤其是在光电设备中。然而，由于多色碳点的量子产率（QY）极低，其在暖白光 LED 中的进一步应用受到了限制。在这项工作中，通过在反应体系中引入 MnSO，成功实现了荧光增强多色 CD（o-CDs(cat.)（发射黄色，Em = 550 nm，QY = 85.4 %）、m-CDs(cat.)（发射蓝色，Em = 440 nm，QY = 35.7 %）、p-CDs(cat.)（发射红色，Em = 610 nm，QY = 73.8 %），在不改变荧光发射波长的情况下，QY 提高了近 15 %。相关机制可能是 MnSO 的催化作用导致 C = N 和吡啶 N 的含量增加，进一步抑制了非辐射跃迁，从而提高了 QY。最后，将得到的高QY多色光盘应用于暖白光LED，色坐标（CIE）为（0.33,0.36），显色指数（CRI）为90，相关色温（CCT）为3473 K。

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来源期刊

Chemical Engineering Journal 工程技术-工程：化工

CiteScore

21.70

自引率

9.30%

发文量

6781

审稿时长

2.4 months

期刊介绍： The Chemical Engineering Journal is an international research journal that invites contributions of original and novel fundamental research. It aims to provide an international platform for presenting original fundamental research, interpretative reviews, and discussions on new developments in chemical engineering. The journal welcomes papers that describe novel theory and its practical application, as well as those that demonstrate the transfer of techniques from other disciplines. It also welcomes reports on carefully conducted experimental work that is soundly interpreted. The main focus of the journal is on original and rigorous research results that have broad significance. The Catalysis section within the Chemical Engineering Journal focuses specifically on Experimental and Theoretical studies in the fields of heterogeneous catalysis, molecular catalysis, and biocatalysis. These studies have industrial impact on various sectors such as chemicals, energy, materials, foods, healthcare, and environmental protection.