Graphene-based metasurface solar absorber using Fe–Fe2O3–Ti multilayer structure

IF 3.3 3区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

Optical and Quantum Electronics Pub Date : 2024-11-16 DOI:10.1007/s11082-024-07767-9

Meshari Alsharari, Bo Bo Han, Shobhit K. Patel, Naim Ben Ali, Khaled Aliqab, Ammar Armghan

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Abstract

The generating absorber design for the thermal heating system is contributed with the three-layer composition of a resonator layer using iron, the substrate part by Ferric oxide, and the design’s bottom layer in Titanium respectively. The exposed absorption rates depend on the overall range of wavelength and can be identified with the best wavelength numbers (µm) of 0.37, 0.61, 0.88, and 2.11. The overall bandwidth number that we can present for the current design is 2800 nm by the wavelength separation of 0.2 and 3 µm and shows an effective percentage of 93.34%. The other two bandwidth numbers over the 2800 nm are 1500 nm (95.1%) by a wavelength separation of 1.5 and 3 µm, and 1000 nm (97.54%) with a wavelength configuration of 1.5 and 2.5 µm. With the respective presentation of the current design, the used material types and parametric rates, the analysis exploration of the changed parametric values, and the conclusion of the proposed work will be presented properly. The generated solar absorber can be used in a variety of various industrial applications of food processing, mineral processing, water desalination, and chemical production.

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使用 Fe-Fe2O3-Ti 多层结构的石墨烯基超表面太阳能吸收器

热加热系统的吸收器设计由三层组成：谐振器层使用铁，基底部分使用氧化铁，设计底层使用钛。暴露的吸收率取决于整个波长范围，最佳波长数（微米）分别为 0.37、0.61、0.88 和 2.11。当前设计的总体带宽为 2800 nm，波长间隔为 0.2 和 3 µm，有效百分比为 93.34%。超过 2800 nm 的另外两个带宽数字是：1500 nm（95.1%），波长间隔为 1.5 和 3 µm；1000 nm（97.54%），波长配置为 1.5 和 2.5 µm。在分别介绍了当前的设计、使用的材料类型和参数率后，将对参数值的变化进行分析探索，并对拟议的工作进行适当总结。生成的太阳能吸收器可用于食品加工、矿物加工、海水淡化和化工生产等各种工业应用领域。

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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来源期刊

Optical and Quantum Electronics 工程技术-工程：电子与电气

CiteScore

4.60

自引率

20.00%

发文量

810

审稿时长

3.8 months

期刊介绍： Optical and Quantum Electronics provides an international forum for the publication of original research papers, tutorial reviews and letters in such fields as optical physics, optical engineering and optoelectronics. Special issues are published on topics of current interest. Optical and Quantum Electronics is published monthly. It is concerned with the technology and physics of optical systems, components and devices, i.e., with topics such as: optical fibres; semiconductor lasers and LEDs; light detection and imaging devices; nanophotonics; photonic integration and optoelectronic integrated circuits; silicon photonics; displays; optical communications from devices to systems; materials for photonics (e.g. semiconductors, glasses, graphene); the physics and simulation of optical devices and systems; nanotechnologies in photonics (including engineered nano-structures such as photonic crystals, sub-wavelength photonic structures, metamaterials, and plasmonics); advanced quantum and optoelectronic applications (e.g. quantum computing, memory and communications, quantum sensing and quantum dots); photonic sensors and bio-sensors; Terahertz phenomena; non-linear optics and ultrafast phenomena; green photonics.