Exploring optical and electrochemical studies on thulium selenite (TmSeO3)

Zeitschrift für Physikalische Chemie Pub Date : 2024-03-12 DOI:10.1515/zpch-2023-0404

Ariponnammal Shanmuga Sundaram, Basil Ralph Nesam Gregory, Shanmugha Soundare Sivakumar

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Abstract

Thulium selenite (TmSeO3) has been synthesized by precipitation method. It shows interesting smooth surface with nearly non-symmetric texture similar to water droplets spreading on hydrophobic surface. TmSeO3 is found to be monoclinic structure with lattice parameters a = 5.919±0.01 Å, b = 12.422±0.01 Å, c = 8.717±0.01 Å, α = γ = 90°, β = 106.01° and V = 616.1 Å3. Fourier transform infrared spectroscopy confirms the presence of Tm–Se bonding. X-ray photo emission spectrum confirmed the presence of thulium, selenium and oxygen in the samples in oxide form. Magnetic study between 300 and 20 K, shows decrease of magnetic moment with temperature, then reaches saturation and aligns all thulium spins. This results cooperative interaction of thulium spins. M–H curve at 300 K confirms the paramagnetic nature of sample. Cyclic voltammogram of three electrode system, manifests electric double layer capacitance with a potential window of 0.55 V. Specific capacitance is 102 F/g. Chronopotentiometry analysis shows 75 F/g specific capacitance, 11 Wh kg−1 energy density, and 275 W kg−1 power density. Impedance analysis confirms electric double layer capacitor behavior. Hence, TmSeO3 electrode based symmetric supercapacitor device was successfully fabricated and tested by two electrode configuration in aqueous electrolyte of KOH. A specific capacitance of 64.60 F/g at 1 A/g within a potential window of 1.85 V was achieved. Impedance analysis also confirms electric double layer capacitor nature with low series resistance of 0.2596 Ω and charge transfer resistance of 1.6352 Ω. The improved cycling performance after 4000 cycles is 51.5 % specific capacitance retention. Thus, symmetric supercapacitor electrodes based TmSeO3 materials are expected to have good electrochemical properties and good stability for energy storage and conversion applications. Furthur, optical parameters 5.28 eV energy gap, 0.4924 eV Urbach energy value and 1.959 refractive index are determined.

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探索硒化铥（TmSeO3）的光学和电化学研究

硒铥（TmSeO3）是通过沉淀法合成的。它显示出有趣的光滑表面，具有类似于水滴在疏水表面扩散的非对称纹理。TmSeO3 呈单斜结构，其晶格参数为 a = 5.919±0.01 Å，b = 12.422±0.01 Å，c = 8.717±0.01 Å，α = γ = 90°，β = 106.01°，V = 616.1 Å3。傅立叶变换红外光谱证实了 Tm-Se 键的存在。X 射线光发射光谱证实样品中存在氧化物形式的铥、硒和氧。在 300 至 20 K 之间进行的磁性研究表明，磁矩随温度的升高而减小，然后达到饱和状态并使所有铥自旋对齐。这导致了铥自旋的协同作用。300 K 时的 M-H 曲线证实了样品的顺磁性。三电极系统的循环伏安图显示了双电层电容，电位窗口为 0.55 V。比电容为 102 F/g。计时电位分析表明，比电容为 75 F/g，能量密度为 11 Wh kg-1，功率密度为 275 W kg-1。阻抗分析证实了双层电容器的特性。因此，基于 TmSeO3 电极的对称超级电容器装置被成功制造出来，并在 KOH 水电解质中通过双电极配置进行了测试。在 1.85 V 的电位窗口内，1 A/g 时的比电容为 64.60 F/g。阻抗分析也证实了双层电容器的性质，其串联电阻为 0.2596 Ω，电荷转移电阻为 1.6352 Ω。经过 4000 次循环后，比电容保持率提高了 51.5%。因此，基于 TmSeO3 材料的对称超级电容器电极有望在能量存储和转换应用中具有良好的电化学性能和稳定性。此外，还测定了光学参数 5.28 eV 能隙、0.4924 eV 厄巴赫能值和 1.959 折射率。

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Zeitschrift für Physikalische Chemie

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