用于光伏应用的 Sr1-xCexTiO3 Perovskites 在可见光照射下的瞬态光电流响应。

IF 3.2 4区化学 Q2 CHEMISTRY, ANALYTICAL

Luminescence Pub Date : 2024-11-12 DOI:10.1002/bio.4918

S. Vinod Kumar, D. Prakash Babu, S. Ponkumar, R. Uthrakumar, K. Kaviyarasu, A. Nivetha, Muhammad Sheraz Ahmad, Mir Waqas Alam

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引用次数: 0

摘要

本研究旨在通过固态方法合成掺杂了 Ce3+ 的钛酸锶（Sr1-xCexTiO3）。其晶体结构为 Sr1-xCexTiO3，带隙范围为 ~3.3 至 ~2.7 eV。在 288 纳米波长下激发样品的光致发光，在 380 和 390 纳米波长下观察到蓝光的最大发射。光催化结果表明，染料分子的吸光度很高，而其表面积却很大。根据线扫描伏安图（LSV），与黑暗条件相比，照明使电流密度增加了 0.4 μA cm-2。实验证明，在掺杂情况下，材料从 n 型转变为 p 型。当施加 0.8 V 的电压时，样品 Sr1-xCexTiO3（x = 0、0.005、0.01、0.03、0.05）与 NHE 之间的时变光谱被绘制出来。图中显示，在 "光亮开启 "条件下，电流密度增加，而在 "光亮关闭 "条件下，电流密度减小。随着 Ce3+ 浓度的增加，光电流一直增加到约 3 摩尔%，之后骤然下降。

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Transient Photocurrent Responses of Sr1-xCexTiO3 Perovskites Under Visible Light Illumination for Photovoltaic Applications

The objective of this study was to synthesize strontium titanate (Sr_1-xCe_xTiO₃) doped with Ce³⁺ by solid state method. Its crystalline structure is Sr_1-xCe_xTiO₃, and its bandgap ranges from ~3.3 to ~2.7 eV. In the photoluminescence of samples excited at 288 nm, the maximum emission of blue light was observed at 380 and 390 nm. Photocatalytic results show that dye molecules have a high absorbance, whereas their surface area is large. According to a line sweep voltammetric plot (LSV), illumination increases the current density by 0.4 μA cm⁻² compared with dark conditions. It was demonstrated that the material changed from n-type to p-type under doping. Chronoamperometry spectra were obtained for sample Sr_1-xCe_xTiO₃ (x = 0, 0.005, 0.01, 0.03, 0.05) when an electrical voltage of 0.8 V was applied versus NHE. The plots indicate an increase in the current density under “light ON” conditions and a decrease under “light OFF” conditions. As Ce³⁺ concentration increases, the photocurrent increases until about 3 mol%, after which it decreases abruptly.

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来源期刊

Luminescence 生物-生化与分子生物学

CiteScore

5.10

自引率

13.80%

发文量

248

审稿时长

3.5 months

期刊介绍： Luminescence provides a forum for the publication of original scientific papers, short communications, technical notes and reviews on fundamental and applied aspects of all forms of luminescence, including bioluminescence, chemiluminescence, electrochemiluminescence, sonoluminescence, triboluminescence, fluorescence, time-resolved fluorescence and phosphorescence. Luminescence publishes papers on assays and analytical methods, instrumentation, mechanistic and synthetic studies, basic biology and chemistry. Luminescence also publishes details of forthcoming meetings, information on new products, and book reviews. A special feature of the Journal is surveys of the recent literature on selected topics in luminescence.