Advancing electrochemical CO2 reduction with group 11 metal nanoclusters for renewable energy solutions

EcoEnergy Pub Date : 2024-07-10 DOI:10.1002/ece2.56
Sourav Biswas, Yamato Shingyouchi, Masaki Ogami, Maho Kamiyama, Tokuhisa Kawawaki, Yuichi Negishi
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Abstract

Understanding the intricate relationship between structure and properties is paramount in distinguishing nanocluster (NC) materials from their counterparts. Despite the progress in synthesizing new NCs, the sluggish exploration of their potential applications persists due to the difficulty in stabilizing these materials. However, recent investigations have unveiled their remarkable efficacy as catalysts in electrochemical CO2 reduction reactions, surpassing traditional materials. This discovery, addressing urgent global concerns, has quickly drawn significant attention to this field, leading to its rapid expansion. Hence, there is an urgent need to outline this research landscape and pinpoint effective strategies, marking a significant advancement. In this context, our endeavor is dedicated to offering researchers a thorough understanding of recently synthesized NC materials. We aim to elucidate their distinct structural architectures and associated properties essential for catalyst design. We envision that this systematic review will serve as a guiding beacon for future research endeavors in this burgeoning field.

Abstract Image

利用第 11 族金属纳米团簇推进二氧化碳电化学还原,实现可再生能源解决方案
要将纳米团簇(NC)材料与同类材料区分开来,了解结构与性能之间的复杂关系至关重要。尽管在合成新的 NC 方面取得了进展,但由于难以稳定这些材料,对其潜在应用的探索依然缓慢。然而,最近的研究揭示了它们在电化学二氧化碳还原反应中作为催化剂的显著功效,超越了传统材料。这一发现解决了全球的紧迫问题,迅速引起了人们对这一领域的极大关注,并导致其迅速扩展。因此,迫切需要勾勒出这一研究领域的轮廓,并确定有效的战略,这标志着一项重大进展。在此背景下,我们致力于让研究人员全面了解最新合成的数控材料。我们的目标是阐明其独特的结构架构以及对催化剂设计至关重要的相关特性。我们希望这篇系统性综述能成为这一新兴领域未来研究工作的指路明灯。
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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