New quaternary Bi30Sb10Se30Te30 thin films with enhanced photo current and surface wettability for optoelectronic applications

IF 5.1 2区 材料科学 Q1 MATERIALS SCIENCE, CERAMICS Ceramics International Pub Date : 2024-09-26 DOI:10.1016/j.ceramint.2024.09.337
S. Das , D. Alagarasan , R. Ganesan , S.K. Samal , R. Naik
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Abstract

Bi-doped metal chalcogenides have important applications as thermoelectric and good optoelectronic devices. The present investigation is based on the optimization of various optical, structural, and electrical behaviours of quaternary Bi30Sb10Se30Te30 thin films via thermal annealing at different temperatures. The increased crystallite size and decreased dislocation density upon annealing were probed from the structural study. The contribution from the vibrational bonds in the sample with annealing was checked by Raman analysis. X-ray diffraction and high-resolution transmission electron microscopy studies confirmed the existence of the Sb2Te and Bi2Te3 phases in the film. The granular structure of the compound was seen from the surface morphology. The X-ray photoelectron spectroscopy infers the chemical states of the elements in the sample. The reduction of optical bandgap from 0.94 eV to 0.52 eV upon annealing induced an increase in refractive index from 3.44 to 4.70, while the non-linear refractive index was found to be increased by three times, and the nonlinear susceptibility was increased by four times from the un-annealed condition. The hydrophilicity nature was sustained with annealing and also increased. An increase in photocurrent and a decrease in resistivity of the films with annealing were found from the I-V measurement, which is good for electronic devices. The optimized optical and electrical parameters make the annealed films suitable for various optoelectronic applications.

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光电应用中具有更强光电流和表面润湿性的新型四元 Bi30Sb10Se30Te30 薄膜
双掺杂金属卤化物作为热电器件和良好的光电器件具有重要的应用价值。本研究基于在不同温度下通过热退火优化四元 Bi30Sb10Se30Te30 薄膜的各种光学、结构和电学行为。结构研究探究了退火后晶体尺寸的增加和位错密度的降低。拉曼分析检验了退火时样品中振动键的贡献。X 射线衍射和高分辨率透射电子显微镜研究证实了薄膜中存在 Sb2Te 和 Bi2Te3 相。从表面形态可以看出化合物的颗粒结构。X 射线光电子能谱能推断出样品中元素的化学状态。退火后,光带隙从 0.94 eV 减小到 0.52 eV,导致折射率从 3.44 增加到 4.70,非线性折射率比未退火时增加了三倍,非线性电感增加了四倍。亲水性在退火后得以保持,并且还有所增加。通过 I-V 测量发现,退火后薄膜的光电流增加,电阻率降低,这对电子设备来说是好事。优化的光学和电学参数使退火薄膜适用于各种光电应用。
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来源期刊
Ceramics International
Ceramics International 工程技术-材料科学:硅酸盐
CiteScore
9.40
自引率
15.40%
发文量
4558
审稿时长
25 days
期刊介绍: Ceramics International covers the science of advanced ceramic materials. The journal encourages contributions that demonstrate how an understanding of the basic chemical and physical phenomena may direct materials design and stimulate ideas for new or improved processing techniques, in order to obtain materials with desired structural features and properties. Ceramics International covers oxide and non-oxide ceramics, functional glasses, glass ceramics, amorphous inorganic non-metallic materials (and their combinations with metal and organic materials), in the form of particulates, dense or porous bodies, thin/thick films and laminated, graded and composite structures. Process related topics such as ceramic-ceramic joints or joining ceramics with dissimilar materials, as well as surface finishing and conditioning are also covered. Besides traditional processing techniques, manufacturing routes of interest include innovative procedures benefiting from externally applied stresses, electromagnetic fields and energetic beams, as well as top-down and self-assembly nanotechnology approaches. In addition, the journal welcomes submissions on bio-inspired and bio-enabled materials designs, experimentally validated multi scale modelling and simulation for materials design, and the use of the most advanced chemical and physical characterization techniques of structure, properties and behaviour. Technologically relevant low-dimensional systems are a particular focus of Ceramics International. These include 0, 1 and 2-D nanomaterials (also covering CNTs, graphene and related materials, and diamond-like carbons), their nanocomposites, as well as nano-hybrids and hierarchical multifunctional nanostructures that might integrate molecular, biological and electronic components.
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