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面向光电应用的多峰发射金团簇及其变温荧光特性

陈贞达李珉璇冯守中戴海涛张晓东郝希晨邓嘉辰曹雅娴 Arain SAMIA Ahmad ANEELA 刘昌龙

液晶与显示2025，Vol.40Issue(6)：809-817,9.

液晶与显示2025，Vol.40Issue(6)：809-817,9.DOI:10.37188/CJLCD.2025-0068

面向光电应用的多峰发射金团簇及其变温荧光特性

Multi-peak emission gold clusters for optoelectronic application and temperature-dependent fluorescence properties

陈贞达 ¹李珉璇 ²冯守中 ³戴海涛 ¹张晓东 ⁴郝希晨 ¹邓嘉辰 ¹曹雅娴 ¹Arain SAMIA ¹Ahmad ANEELA ¹刘昌龙¹

作者信息

1. 天津大学理学院,天津市低维功能材料物理与制备技术重点实验室,天津 300350
2. 中国铁路设计公司,天津 300308
3. 安徽中益新材料科技有限公司,安徽滁州 239599
4. 天津大学理学院,天津市低维功能材料物理与制备技术重点实验室,天津 300350||天津大学医学院,天津市脑科学与神经工程重点实验室,天津 300072
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摘要

Abstract

Au nanoclusters,as a quasi-zero-dimensional semiconductor fluorescent material with excellent luminescence and photostability,have been widely used in the field of bioimaging.The material also has a wide range of application prospects in electroluminescent devices as well as displays.This study proposes a novel ligand engineering strategy employing thermally activated delayed fluorescence(TADF)mechanisms to significantly improve the photoluminescent performance of Au nanoclusters(Au NCs).The proposed methodology focuses on the efficient harvesting of triplet excitons,which effectively inhibits non-radiative transition pathways.Ultra-small core-shell structured TPA-DCPP/TOAB/AuCs nanoclusters(CS-AuCs)with a size of(1.97±0.31)nm which exhibits thermally activated delayed fluorescence(TADF)were successfully synthesized via ligand engineering.Subsequently,the electronic energy level structure,exciton dynamics,and transition mechanisms were analyzed through the absorption and emission spectra of CS-AuCs via a combined analysis of temperature-dependent absorption/emission spectra and transient photoluminescence(TRPL)measurements.The results show that the short-wavelength fluorescence peaks(507 nm and 528 nm)of CS-AuCs exhibit TADF characteristics,i.e.,their luminescence intensity is enhanced with increasing temperature.The CS-AuCs thin film demonstrated a maximum fluorescence peak intensity enhancement of 5.10-fold@80℃.The long-wavelength emission peak(797 nm),on the other hand,exhibits the temperature-dependent property of normal fluorescence peaks,i.e.,the luminescence intensity decreases with increasing temperature.Meanwhile,the film-forming experiments demonstrated that CS-AuCs has excellent compatibility and film-forming properties while maintaining the fluorescence characteristics,which enhances the potential of Au nanoclusters for applications in display devices such as cluster light emitting diodes(CLED).

关键词

金纳米团簇/热激活延迟荧光/核壳结构/激子动力学/变温荧光

Key words

Au nanocluster/thermally activated delayed fluorescence/core-shell structure/exciton dynamics/temperature-dependent photoluminescence

分类

物理学

引用本文复制引用

陈贞达,李珉璇,冯守中,戴海涛,张晓东,郝希晨,邓嘉辰,曹雅娴,Arain SAMIA,Ahmad ANEELA,刘昌龙..面向光电应用的多峰发射金团簇及其变温荧光特性[J].液晶与显示,2025,40(6):809-817,9.

基金项目

国家自然科学基金(No.62375200)Supported by National Natural Science Foundation of China(No.62375200) （No.62375200）

液晶与显示

OA北大核心

ISSN：1007-2780

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