超材料在天线设计、隐身装置、传感器和太阳能电池中的潜在应用综述

IF 0.9 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Optoelectronic and Biomedical Materials Pub Date : 2021-04-01 DOI:10.15251/jobm.2021.132.23
N. V. Krishna Prasad, T. A. Babu, S. Phanidhar, R. Singampalli, B. R. Naik, M. Sarma, S. Ramesh
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引用次数: 0

摘要

本文简要介绍了超材料在天线设计、隐身器件、传感器和太阳能电池等方面的一些应用。超材料可以用作环境或天线的一部分。根据所需参数,超材料在设计天线时可用于各种类型。它们在增强功率增益、带宽、创建多个频率的密集天线和天线方面非常有用。超材料在天线中的应用需要对晶胞进行适当的设计。这需要以所需的频率创建具有特殊属性的单元。伪装是一种使特定物体不可见的技术。这是通过隔离该区域的电磁波来实现的。本文介绍了一些使用坐标变换和散射消除技术的隐身装置。综述了超材料传感器比传统材料传感器更有效的性能。这些传感器表现出增强的灵敏度。综述了用于波导和液体化学检测的传感器。综述了使用超材料的太阳能电池。这些材料的使用减少了太阳辐射的损失,使得基于设计的太阳能电池更加高效。太阳能电池的最新设计集中在通过使用背反射器和增加吸收来获得最大反射
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POTENTIAL APPLICATIONS OF METAMATERIALS IN ANTENNA DESIGN, CLOAKING DEVICES, SENSORS AND SOLAR CELLS: A COMPREHENSIVE REVIEW
This paper reviewed some of the applications of metamaterials in antenna design, cloaking devices, sensors and solar cells in brief. Metamaterials can be used as environment or as part of the antenna. Based on the required parameters, metamaterials while designing antennas are used in various types. They are highly useful in enhancing the power gain, bandwidth, in creating dense and antennas of multiple frequencies. Usage of metamaterial in antenna require proper designing of unit cell. This require creation of cells with special properties at required frequency. Cloaking is a technique of making specific objects invisible. This was achieved by isolating electromagnetic waves in that region. This paper reviewed some of the cloaking devices that use the technique of coordinate transformation and scattering cancellation. Metamaterial sensors which are more efficient than sensors with traditional materials are reviewed. These sensors exhibit enhanced sensitivity. Sensors used in wave guides and liquid chemical detection were reviewed. Solar cells that use metamaterials were reviewed. Usage of these materials reduce the loss in solar radiation making the solar cell more efficient based on the design. Recent design in solar cells concentrate on obtaining maximum reflection through usage of back reflectors and increased absorption
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来源期刊
Journal of Optoelectronic and Biomedical Materials
Journal of Optoelectronic and Biomedical Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-
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