Structural metamorphosis and photophysical properties of thermostable nano- and microcrystalline lanthanide polymer with flexible coordination chains.

IF 7.4 3区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Takayuki Nakanishi, Yuichi Hirai, Jian Xu, Takashi Takeda, Shunsuke Watanabe, Atsuo Yasumori, Shou Hakamada, Yuichi Kitagawa, Yasuchika Hasegawa
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引用次数: 1

Abstract

Luminescent lanthanide coordination polymer crystals (LCPCs) represent an area of growing interest in materials chemistry owing to their unique and tailorable functional properties. The LCPCs provide a high level of structural tunability, including size- and morphology-dependent properties; therefore, they are promising materials for next-generation phosphors in a wide range of applications such as light emitting diodes. Here, by controlling the morphology of thermostable europium coordination polymer crystals, [Eu(hfa)3(dpbp)]n, hfa: hexafluoroacetylacetonate and dpbp:4,4'-bis(diphenyl phosphoryl) biphenyl), we realized a novel red phosphor with narrow linewidth emission (FWHM = 7.8 nm). The obtained luminescent LCPCs with unique structures were characterized by X-ray diffraction (XRD), scanning transmission electron microscopy (STEM), dynamic light scattering (DLS) and thermogravimetric analysis. Among, them, size tunable crystalline polymer spheres were found to have high internal quantum efficiency (ex., IQE = 79%) and highly thermostability (>300°C), and to exhibit dispersibility in PMMA media. The obtained results on the structural tunability of these materials can be used for the development of synthesis techniques for nanoscale materials based on crystalline lanthanide-based coordination phosphors.

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具有柔性配位链的热稳定性纳米和微晶镧系聚合物的结构变形和光物理性质。
发光镧系配位聚合物晶体(lcpc)由于其独特和可定制的功能特性,在材料化学中代表了一个日益增长的兴趣领域。lcpc提供了高水平的结构可调性,包括尺寸和形态相关的特性;因此,它们是在发光二极管等广泛应用的下一代荧光粉的有前途的材料。本文通过控制热稳定铕配位聚合物晶体[Eu(hfa)3(dpbp)]n、hfa:六氟乙酰丙酮酸和dpbp:4,4′-双(二苯基磷基)联苯)的形貌,实现了一种具有窄线宽发射(FWHM = 7.8 nm)的新型红色荧光粉。采用x射线衍射(XRD)、扫描透射电子显微镜(STEM)、动态光散射(DLS)和热重分析对所制得的具有独特结构的发光lcpc进行了表征。其中,粒径可调的结晶聚合物球具有较高的内量子效率(IQE = 79%)和较高的热稳定性(>300℃),并且在PMMA介质中具有分散性。这些材料的结构可调性的研究结果可用于开发基于晶体镧系配位荧光粉的纳米级材料的合成技术。
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来源期刊
Science and Technology of Advanced Materials
Science and Technology of Advanced Materials 工程技术-材料科学:综合
CiteScore
10.60
自引率
3.60%
发文量
52
审稿时长
4.8 months
期刊介绍: Science and Technology of Advanced Materials (STAM) is a leading open access, international journal for outstanding research articles across all aspects of materials science. Our audience is the international community across the disciplines of materials science, physics, chemistry, biology as well as engineering. The journal covers a broad spectrum of topics including functional and structural materials, synthesis and processing, theoretical analyses, characterization and properties of materials. Emphasis is placed on the interdisciplinary nature of materials science and issues at the forefront of the field, such as energy and environmental issues, as well as medical and bioengineering applications. Of particular interest are research papers on the following topics: Materials informatics and materials genomics Materials for 3D printing and additive manufacturing Nanostructured/nanoscale materials and nanodevices Bio-inspired, biomedical, and biological materials; nanomedicine, and novel technologies for clinical and medical applications Materials for energy and environment, next-generation photovoltaics, and green technologies Advanced structural materials, materials for extreme conditions.
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