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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 5770
- 0 2 Research Progresses of Photoluminescence and Application for Emerging Zero-dimensional Metal Halides Luminescence Materials 5553
- 0 3 Advances in Valence State Analysis of Manganese in Mn4+-activated Red Phosphors for White LEDs 5040
- 0 4 Basic Knowledge for Understanding Spectroscopic Property of Mn4+ Ion 4288
- 0 5 Reversible Fluorescence Modulation and Applications Based on Chromic Effect in Inorganic Rare-earth Luminescent Materials 4091
- 0 6 Enhanced Electroluminescence Properties of Tin-based Perovskites by Vitamin C Additives 3841
- 0 7 Research Progress on Structure Design of Direct Halogen Perovskite X-ray Detectors 3587
- 0 8 Strengthening Carrier Transmission to Achieve High Brightness and High Efficiency of Perovskite Quantum Dot Light Emitting Diodes 3512
- 0 9 Rare Earth Ion Doped Perovskite Nanocrystals 3453
- 10 Research Progress on Optical Quenching of Ce3+- and Eu2+-doped Luminescent Materials 3432
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2026年第47卷第2期
Cover Story
Fluorine Substitution Site Effects on Electroluminescent Properties of Platinum(Ⅱ) Complexes 增强出版 AI导读
“介绍了其在有机发光材料领域的研究进展,相关专家设计并合成了三种新型环金属铂(Ⅱ)配合物,系统探究了氟原子取代位置对其光电性能的影响,为高性能有机发光材料和器件的分子设计提供了可行策略。”摘要:Three new cyclometalated platinum(Ⅱ) complexes, PtB, PtB-F-2, and PtB-F-1, were designed and synthesized to systematically investigate the influence of fluorine substitution sites on their photophysical and electroluminescent properties. The structures of these complexes were confirmed by 1H/13C NMR and mass spectrometry. Combined experimental characterization and theoretical calculations were employed to elucidate the regulatory effect of fluorine substituents on the photophysical and electrochemical behaviors of the complexes. The results reveal that the substitution position of the fluorine atom has a pronounced impact on the emission spectra. Compared with the non-fluorinated PtB, PtB-F-2 exhibits a red-shifted emission, whereas PtB-F-1 shows a blue-shifted emission. In degassed dichloromethane solutions at room temperature, all complexes display bright green emission in the range of 505-533 nm, with photoluminescence quantum yields of 20.1%-27.2% and lifetime of 1.96-3.87 μs. When applied as the emissive dopants in organic light-emitting devices, the corresponding devices exhibit intense green electroluminescence with maximum external quantum efficiencies (EQEs) of 19.4%-22.2% and maximum luminance values of 24 761-30 316 cd·m-2. Among them, PtB-F-1 and its device demonstrate the best photoluminescent and electroluminescent performance. This study highlights that precise modulation of fluorine substitution sites within the PtB backbone effectively tunes the emission characteristics of Pt(Ⅱ) complexes, offering a feasible molecular design strategy for high-performance organic light-emitting materials and devices.关键词:organic light-emitting diodes;fluorine substitution site effect;platinum(Ⅱ) complexes;electroluminescent properties282|262|0更新时间:2026-03-05Research Letter
“介绍了其在二氧化钼二维薄膜领域的研究进展,专家探索了拉曼光谱对薄膜厚度的依赖关系,为解决薄膜厚度检测问题提供有效手段。”摘要:Monoclinic-phase molybdenum dioxide (m-MoO2) two-dimensional (2D) flakes exhibit outstanding properties comparable to those of noble metals, with tunable performance depending on flake thickness. This makes it highly promising for applications in areas such as environmental monitoring and wastewater sensing. One of prerequisites for achieving high-performance MoO2-based devices is the development of an in-situ, rapid, and non-destructive method for measuring flake thickness. In this work, the dependence of the Raman spectra of MoO₂ 2D thin flakes on flake thickness is investigated, providing a method for in-situ, non-destructive thickness characterization. Excited with 532 nm laser, the shift in the Raman characteristic peak at 127 cm-1 effectively reflects the variation in flake thickness. Furthermore, by adjusting the polarization of the excitation light, the crystal axis orientation of the MoO2 thin flake can be calibrated. The Raman spectroscopic results thus offer an effective and convenient approach for monitoring the flake thickness in MoO2-based device fabrication.关键词:m-MoO2 flakes;Raman spectroscopy;in situ non-destructive detection303|209|0更新时间:2026-03-05Invited Review
“无机荧光粉在固态照明与显示领域应用广泛,相关专家系统梳理了间隙发光中心的构筑与表征、间隙发光材料的合成与应用,为无机荧光粉设计提供新视角,为探索材料体系中的新颖发光性质开辟了新方向。”摘要:Inorganic phosphors are widely used in important fields such as solid-state lighting and displays, making them a key focus in the research on luminescent materials. Typically, the design of inorganic phosphors relies on the “crystallographic site engineering”, where activator ions partially substitute suitable metal cations in hosts to form luminescence centers. This strategy requires the inorganic host to provide standard crystallographic sites for activator ions occupancy; otherwise, it is difficult to realize effective doping and subsequently efficient luminescence. In recent years, it has been discovered that even in some hosts lacking standard substitution sites, efficient luminescence can be achieved when activator ions enter interstitial crystallographic sites, leading to the development of interstitial luminescent materials. This review systematically summarizes the construction and characterization of interstitial luminescence centers, and the synthesis and application of interstitial phosphors, while also discussing the opportunities and challenges in future research. The construction of interstitial luminescence centers not only provides a new perspective for developing inorganic phosphors but also holds significant importance for exploring and understanding novel luminescence properties in existing phosphors.关键词:inorganic phosphor;interstitial luminescence center;luminescence property, local structure443|297|0更新时间:2026-03-05- “介绍了非稀土激活无机玻璃闪烁体的研究进展,专家们探索了过渡金属离子掺杂、氧化物纳米晶复合玻璃及新型钙钛矿玻璃等体系,为解决传统闪烁体面临的原料成本高昂、发射谱带窄等问题提供了新思路。”摘要:Scintillators, serving as core conversion materials for high-energy radiation detection and imaging, play an indispensable role in medical imaging, security inspection, industrial non-destructive testing, and high-energy physics. Although traditional rare-earth ion-doped scintillators (e.g., Tb3+, Eu3+) exhibit excellent performance, they face challenges such as high raw material costs and narrow emission bands. Non-rare-earth-activated inorganic glass scintillators have emerged as a research focus for the next generation of radiation detection materials, owing to their wide range of activators, broadband emission, and strong environmental adaptability. This article systematically reviews the luminescence mechanisms and recent advancements in such materials, with an in-depth discussion of major material systems, including transition metal ion doping (e.g., Mn2+, Cu+, Sn2+), oxide nanocrystal-embedded glass, and novel perovskite glass (lead-based, manganese-based, copper-based). Innovative strategies in sensitized energy transfer, in-situ crystallization control, halogen coordination engineering, and fiber array fabrication are detailed, along with significant improvements in key performance indicators such as light yield (up to 425% of BGO), spatial resolution, and thermal quenching resistance (63% intensity retention at 573 K). The review also highlights existing challenges, including the gap between achieved and theoretical light yields, the trade-off between high crystallization rates and optical homogeneity, insufficient long-term radiation stability, and the need for lead-free alternatives. Future research should focus on multi-scale structural modulation, defect engineering, lead-free design, and device integration technologies to facilitate the practical application of non-rare-earth glass scintillators in advanced medical imaging, industrial non-destructive testing, and extreme environment detection.关键词:Glass Scintillators;non-rare-earth ions;oxide nanocrystal-embedded glass;transition metals;perovskites203|279|0更新时间:2026-03-05
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