Formation features and functional properties of Gd2Ti2O7:Sm3+/Nd3+ nanoparticles synthesized by combined method

IF 5.45 Q1 Physics and Astronomy

Nano-Structures & Nano-Objects Pub Date : 2024-05-01 DOI:10.1016/j.nanoso.2024.101194

Vladislav V. Zlobin , Ivan I. Mikhailov , Alexey Kuznetsov , Demid A. Kirilenko , Andrey R. Khayrulline , Ruslan Yu. Smyslov , Alexander N. Bugrov

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引用次数: 0

Abstract

The present paper is devoted to the investigation of the formation process and growth of Gd₂Ti₂O₇ nanocrystals with a pyrochlore structure doped with Sm³⁺ and Nd³⁺ ions. During the Gd₂Ti₂O₇:Sm³⁺/Nd³⁺ nanoparticles synthesis, aqueous solutions of gadolinium, samarium and neodymium nitrates were added to a mixture of titanium isopropoxide, and polyethylene glycol was diluted with isopropyl alcohol, after which the resulting substance was evaporated to a gel state and heat-treated according to a two-stage scheme. As a result of the study, it has been shown that the forming material had a trabecular structure with a developed network of macro- and micropores. The use of a two-stage heat treatment promotes uniform distribution of different nature atoms in resulting samples. In addition it has been concluded that gadolinium titanate crystalls with a pyrochlore structure is formed by an aggregation mechanism at 700 °C from an X-ray amorphous precursor. From the point of view of obtaining a single-phase material, a possibility of varying nanocrystals dimensions and the pyrochlore structure defectiveness, annealing of the precursor in the temperature range of 750–900 °C is most promising. In this case, the most significant percentage of Sm³⁺ and Nd³⁺ ions, which change their localization with increasing synthesis temperature, are incorporated into the crystal structure of Gd₂Ti₂O₇. Doping of Gd₂Ti₂O₇ nanocrystals not only leads to appearance of expected photoluminescence, but also contributes to manifestation of extraordinary effects in dielectric characteristics of such a material.

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组合法合成的 Gd2Ti2O7:Sm3+/Nd3+ 纳米粒子的形成特征和功能特性

本文主要研究了掺杂 Sm3+ 和 Nd3+ 离子的具有热绿宝石结构的 Gd2Ti2O7 纳米晶体的形成过程和生长情况。在合成 Gd2Ti2O7:Sm3+/Nd3+ 纳米粒子的过程中，将钆、钐和钕硝酸盐的水溶液加入到异丙醇钛的混合物中，并用异丙醇稀释聚乙二醇，然后将所得物质蒸发至凝胶状态，并按照两阶段方案进行热处理。研究结果表明，成型材料具有小梁状结构，大孔和微孔网络发达。两阶段热处理的使用促进了不同性质原子在成型样品中的均匀分布。此外，研究还得出结论，具有热绿结构的钛酸钆结晶是在 700 °C 的温度下通过聚集机制从 X 射线无定形前驱体中形成的。从获得单相材料、改变纳米晶体尺寸和热核结构缺陷的可能性的角度来看，在 750-900 °C 的温度范围内对前驱体进行退火是最有前途的。在这种情况下，Gd2Ti2O7 的晶体结构中会掺入比例最大的 Sm3+ 和 Nd3+ 离子，它们会随着合成温度的升高而改变其定位。对 Gd2Ti2O7 纳米晶体的掺杂不仅会产生预期的光致发光，还会使这种材料的介电特性产生非凡的效果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nano-Structures & Nano-Objects Physics and Astronomy-Condensed Matter Physics

CiteScore

9.20

自引率

0.00%

发文量

审稿时长

22 days

期刊介绍： Nano-Structures & Nano-Objects is a new journal devoted to all aspects of the synthesis and the properties of this new flourishing domain. The journal is devoted to novel architectures at the nano-level with an emphasis on new synthesis and characterization methods. The journal is focused on the objects rather than on their applications. However, the research for new applications of original nano-structures & nano-objects in various fields such as nano-electronics, energy conversion, catalysis, drug delivery and nano-medicine is also welcome. The scope of Nano-Structures & Nano-Objects involves: -Metal and alloy nanoparticles with complex nanostructures such as shape control, core-shell and dumbells -Oxide nanoparticles and nanostructures, with complex oxide/metal, oxide/surface and oxide /organic interfaces -Inorganic semi-conducting nanoparticles (quantum dots) with an emphasis on new phases, structures, shapes and complexity -Nanostructures involving molecular inorganic species such as nanoparticles of coordination compounds, molecular magnets, spin transition nanoparticles etc. or organic nano-objects, in particular for molecular electronics -Nanostructured materials such as nano-MOFs and nano-zeolites -Hetero-junctions between molecules and nano-objects, between different nano-objects & nanostructures or between nano-objects & nanostructures and surfaces -Methods of characterization specific of the nano size or adapted for the nano size such as X-ray and neutron scattering, light scattering, NMR, Raman, Plasmonics, near field microscopies, various TEM and SEM techniques, magnetic studies, etc .