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Chinese Journal of Luminescence
- Editor-in-Chief:Fengyi Jiang
- ISSN:1000-7032
- eISSN:2097-3195
- CN:22-1116/O4
- Supervisor:Chinese Academy of Sciences
- Sponsor:Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Luminescence Branch of Chinese Physical Society, State Key Laboratory of Luminescence and Applications
- Publication frequency:Monthly
- Tel.:0431-86176862
- E-mail:fgxbt@126.com
- Address:No.3888 Dong Nanhu Road, Changchun, Jilin, China
- Announcement of 5th International Conference on Mechanoluminescence and Novel Structural Health Diagnosis(ML-s)
- International Conference on Optoelectronic Materials, Technology and Application 2022
- The 9th National Conference on Luminescent Properties of Doped Nanomaterials
- 20th International Conference on Luminescence
- International Academic Frontier Forum on Luminescent Materials 2022
- The Second Round Announcement of Phosphor Safari 2022
- The First Round Announcement of Phosphor Safari 2022,July 30- August 3, 2022, Lanzhou, China
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- 0 1 Advances in Relationship Between Lattice Defects and Luminescent Characteristics 5978
- 0 2 Research Progresses of Photoluminescence and Application for Emerging Zero-dimensional Metal Halides Luminescence Materials 5783
- 0 3 Advances in Valence State Analysis of Manganese in Mn4+-activated Red Phosphors for White LEDs 5231
- 0 4 Basic Knowledge for Understanding Spectroscopic Property of Mn4+ Ion 4444
- 0 5 Reversible Fluorescence Modulation and Applications Based on Chromic Effect in Inorganic Rare-earth Luminescent Materials 4266
- 0 6 Enhanced Electroluminescence Properties of Tin-based Perovskites by Vitamin C Additives 4148
- 0 7 Research Progress on Structure Design of Direct Halogen Perovskite X-ray Detectors 4132
- 0 8 Strengthening Carrier Transmission to Achieve High Brightness and High Efficiency of Perovskite Quantum Dot Light Emitting Diodes 3790
- 0 9 Rare Earth Ion Doped Perovskite Nanocrystals 3665
- 10 Research Progress on Optical Quenching of Ce3+- and Eu2+-doped Luminescent Materials 3584
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2026年第47卷第3期
Cover Story
“In the field of micro-nano lasers, a new study introduces ethyl acetate as a green antisolvent to create high-quality quasi-2D perovskite films. This innovation enhances crystallinity, inhibits low n-phases, and extends gain lifetime, leading to a significant reduction in ASE threshold and high net modal gain. The optimized film enables a VCSEL with single-mode lasing and a high quality factor, advancing scalable photonic integration.”摘要:Quasi-two-dimensional (quasi-2d) perovskites are promising gain media for micro-nano lasers, yet their uncontrolled crystallization and abundant low-n phases often hinder optical gain and device performance. In this work, we introduce ethyl acetate (EA) as a green antisolvent to fabricate high-quality quasi-2D PEA0.4MAPbBr3 films. The EA-treated films exhibit superior morphology, enhanced crystallinity, and notably inhibited low n-phases. These improvements yield a prolonged photoluminescence lifetime of 26.3 ns and a substantially extended gain lifetime of 129 ps. Consequently, the optimized film exhibits a markedly reduced amplified spontaneous emission (ASE) threshold of 5.6 μJ·cm-2 and a high net modal gain of 935 cm-1. Leveraging these enhanced gain properties, we successfully demonstrate a vertical-cavity surface-emitting laser (VCSEL) based on a dielectric Bragg reflector microcavity, which delivers single-mode lasing at 528.3 nm and a high quality factor of ~5 886. This work presents a green-solvent-engineering strategy for high-performance perovskite lasers, advancing their prospects for scalable photonic integration.关键词:quasi-2D perovskite;green antisolvent;gain properties;perovskite lasers1790|427|0更新时间:2026-03-25Research Highlight
“最新研究在镧系纳米晶电致发光领域取得突破,专家通过引入有机分子配体,实现了高效可调谐的可见及近红外发光二极管,为高色纯度显示和近红外光源开辟了新路径。”摘要:Lanthanide-doped nanoparticles (LnNPs) have long been regarded as electrically inactive due to their insulating hosts. A recent strategy enables electrical activation by introducing exciton-forming organic ligands as energy mediators, achieving efficient and color-tunable visible and near-infrared LnLEDs. This breakthrough overcomes the insulation bottleneck and opens new opportunities for high-color-purity displays and infrared photonic devices.关键词:Lanthanide nanocrystals;electroluminescence;Molecular excitons;energy transfer;High-color-purity displays;Near-infrared emission1473|379|0更新时间:2026-03-25Invited Paper
“胱抑素C是肾功能评估的关键指标,传统检测方法受限于信号标签的亮度与稳定性。专家构建了钙钛矿量子点荧光生物探针,实现了胱抑素C的快速定量检测,为肾功能标志物的居家与现场快速检测提供了新策略。”摘要:Cystatin C(Cys C) is an important biomarker for evaluating and monitoring renal function and is widely used for early screening of kidney disease. Fluorescent lateral flow immunoassay is a convenient approach for rapid and quantitative Cys C testing, yet its analytical performance is often constrained by the brightness and stability of conventional signal labels. Here, we report a water-stable perovskite quantum dot(PQD)-based fluorescent bioprobe for use in Cys C LFIA. Mesoporous silica nanoparticles(MSNs) were employed as nanocarriers, enabling in situ formation of CsPbBr3 quantum dots within the mesopores while a SiO2 sealing layer was simultaneously constructed. The resulting CsPbBr3@MSNs@SiO2 probes exhibited high photoluminescence quantum yield(PLQY≈93%) and excellent water stability(>120 h), providing robust signal output for LFIA readout. Based on this bioprobe, a fluorescent LFIA strip was fabricated for quantitative Cys C detection, demonstrating good specificity and a clear concentration-dependent response. This work offers a bright and water-stable labeling strategy for point-of-care testing of renal function-related biomarkers and expands the utility of metal halide PQDs in bioanalysis and LFIA-based diagnostics.关键词:perovskite quantum dots;Cystatin C;Lateral flow immunoassay;fluorescence;Point-of-care testing1680|473|0更新时间:2026-03-25- “适配体夹心免疫传感器是一种新型检测技术,兼具选择性强与检测限低的优点,在生物检测领域展现出广泛的应用前景。专家们综述了该技术,涵盖了从适配体筛选、夹心结构构建到纳米信号放大传感方式的核心策略,总结了其在检测小分子、蛋白质及病原微生物等生物靶标方面的应用进展,并深入探讨了当前挑战与未来发展方向。”摘要:Aptamer-based sandwich immunosensors are an emerging analytical platform that combines the high specificity recognition of aptamers with the high sensitivity of immunoassays. Due to their advantages of excellent selectivity and low detection limits, these biosensors hold great potential for use in bioanalytical applications. This review outlines the key strategies underlying such biosensors, including aptamer selection, sandwich structure construction, and nanomaterial-enhanced signal amplification, and surveys recent advances in their bioanalytical application for the detection of small molecules, proteins, and pathogenic microorganisms. Current challenges and promising future directions for the field are also discussed.关键词:aptamer;nanomaterials;sandwich immunosensor;bioanalysis1379|419|0更新时间:2026-03-25
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