MULTI-LAYER WS2 AND MOS2 BASED PLASMONIC SOLAR CELL FOR SMART ENERGY HARVESTING

Z. Oumekloul, Y. Achaoui, A. Mir, A. Akjouj
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引用次数: 2

Abstract

Abstract. One of the best challenges regarding the futuristic vision of smart-city technologies is to offer a comfortable self-governance energy, especially when it comes to electricity storage. If one wants to revolutionize a pre-existing way of living, it is inescapable to neglect basic ingredients gathered from basic physics. The topic of Metamaterials represents a key field that might be explored and thus exploited to propose unprecedented ideas for completely no-existing properties and functionalities. Unlike other ambitious techniques, with a simple stratified surface in combination with a suitable choice of materials, it is possible to propose new solar cells operating in a broad range of frequencies. In this paper, we demonstrate a manner to achieve strong coupling interaction between metallic gold nanowires with a WS2 and MoS2 multi-layer. The novelty of this work lies in the drastic stability of the effect of the thickness layer variation on both, absorption performances and the electric field distribution within the visible and near-infrared range. Accordingly, this new design may be considered of prime importance in several areas such as sensing and solar cell efficiency, to cite a few examples.
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用于智能能量收集的多层ws2和mos2等离子体太阳能电池
摘要关于智慧城市技术的未来愿景,最大的挑战之一是提供一种舒适的自我管理能源,特别是在电力存储方面。如果一个人想彻底改变现有的生活方式,就不可避免地会忽视从基础物理学中收集到的基本成分。超材料的主题代表了一个可能被探索的关键领域,并因此被利用来提出前所未有的想法,完全不存在的特性和功能。不像其他雄心勃勃的技术,简单的分层表面与合适的材料选择相结合,有可能提出在宽频率范围内工作的新型太阳能电池。在本文中,我们展示了一种实现金属金纳米线与WS2和MoS2多层之间强耦合相互作用的方法。这项工作的新颖之处在于,在可见光和近红外范围内,厚度层变化对吸收性能和电场分布的影响非常稳定。因此,这种新设计可能被认为在几个领域至关重要,如传感和太阳能电池效率,举几个例子。
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