掺杂 Ce3+ 的铝酸铜纳米粒子的电化学和光致发光特性

IF 3.8 Q2 CHEMISTRY, PHYSICAL Chemical Physics Impact Pub Date : 2024-08-29 DOI:10.1016/j.chphi.2024.100707
N.R. Srinath , H.C. Manjunatha , Y.S. Vidya , Rajavaram Ramaraghavulu , R. Munirathnam , K.N. Sridhar , S. Manjunatha , M. Shivanna , Suman Kumar , G. Satish babu
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引用次数: 0

摘要

本文首次使用芦荟胶作为还原剂,通过溶液燃烧法合成了掺杂有 Ce3+ (1-9 mol %)的 CuAl2O4。成型样品在 500° C 煅烧 3 小时,然后进行表征。在铝酸铜基体中添加掺杂剂不会改变主基体的晶体结构。布拉格折射证实了立方相的形成,而且没有其他杂质。表面形态由一个接一个排列的纳米棒组成。随着掺杂剂浓度的增加,估计结晶尺寸从 12 纳米减小到 9 纳米,而直接能带隙则从 2.84 eV 增加到 3.02 eV。在 λex = 305 nm 的激发下,光致发光(PL)发射光谱在 553 nm 处有一个高强度峰,在 472 nm 处有一个强度较低的峰。553 nm 处的峰值可归因于氧空位的存在,它是由于 Ce3+ 的电子从 2D3/2 → 2F7/2 转变而产生的,然而,在 472 nm 处观察到的峰值则是由于电离氧空位 (VO) 向价带的转变,这种转变是由 2D3/2 → 2F5/2 转变引起的。CIE 坐标位于绿色区域内,平均 CCT 为 5758 K。此外,还进行了循环伏安分析,以研究氧化和氧化还原峰,而电化学阻抗谱分析则有助于深入了解离子传输动力学。CuAl2O4:Ce(1-9 mol %) NPs 的比电容值介于 29 到 59 F/g 之间。这些研究结果表明,这种合成材料有望应用于显示技术、绿色纳米荧光粉和储能材料等领域。
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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Electrochemical and photoluminescence properties of Ce3+ doped copper aluminate nanoparticles

In this communication, for the first of its kind, CuAl2O4 doped with Ce3+ (1-9 mol %) are syn- thesized by solution combustion method using Aloe Vera gel as a reducing agent. The as-formed sample was calcined at 500° C for 3 hours, followed by characterization. The addition of dopants to the copper aluminate matrix didn't alter the crystal structure of the host matrix. Bragg reflec- tions confirm the formation of the cubic phase and also absence of other impurities. The surface morphology consists of nanorods arranged one above the other. The estimated crystallite size was found to decrease from 12 to 9 nm whereas, the direct energy band gap increases from 2.84 to 3.02 eV with an increase in dopant concentration. Under λex = 305 nm excitation, photoluminescence (PL) emission spectra have a high intense peak at 553 nm along with a less intense peak at 472 nm. The peak at 553 nm can be attributed to the existence of oxygen vacancies which arise due to the transition of an electron from the 2D3/2 2F7/2 of Ce3+, however, the peak observed at 472 nm results from the transition of ionized oxygen vacancies (VO) to the valence band caused by the 2D3/2 2F5/2 transition. The CIE coordinates lie well within the green region with 5758 K aver- age CCT. Further, Cyclic voltammetry analysis was conducted to investigate oxidation and redox peaks, while electrochemical impedance spectroscopy provided insights into ion transport kinetics. Specific capacitance values ranging from 29 to 59 F/g were obtained for CuAl2O4:Ce(1-9 mol %) NPs. These findings suggest potential applications for the synthesized material in areas such as display technology as a green nano phosphor and energy storage materials.

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来源期刊
Chemical Physics Impact
Chemical Physics Impact Materials Science-Materials Science (miscellaneous)
CiteScore
2.60
自引率
0.00%
发文量
65
审稿时长
46 days
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