Cover Image, Volume 2, Number 1, February 2024

Electron Pub Date : 2024-02-28 DOI:10.1002/elt2.37
Wuwei Mo, Joel Jie Foo, Wee-Jun Ong
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Abstract

2D carbon-based heterostructured electrocatalysts have recently emerged as one of the promising nanomaterials to drive sustainable hydrogen production and combat climate change. Unlike conventional noble metal-based catalysts, such heterostructures made from carbon allotropes and transition metals prevail due to their remarkable activities, cost-effectiveness, and earth abundance. Particularly, this review (DOI: 10.1002/elt2.20) summarizes state-of-the-art 2D carbon nanosheet-, graphene-, and graphdiyne-based heterostructured electrocatalysts towards hydrogen evolution and water splitting from both experimental and computational aspects. Besides, novel structural engineering and facile synthesis strategies are also spotlighted, which are vital to greatly enhance electrocatalytic performances.

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封面图片,第 2 卷第 1 号,2024 年 2 月
二维碳基异质结构电催化剂最近已成为推动可持续制氢和应对气候变化的一种前景广阔的纳米材料。与传统的贵金属催化剂不同,这种由碳同素异形体和过渡金属制成的异质结构因其显著的活性、成本效益和地球丰度而大行其道。本综述(DOI: 10.1002/elt2.20)特别从实验和计算两方面总结了最先进的二维碳纳米片、石墨烯和石墨二炔基异质结构电催化剂在氢进化和水分离方面的应用。此外,还重点介绍了新颖的结构工程和简便的合成策略,这对大大提高电催化性能至关重要。
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Issue Information Cover Image, Volume 2, Number 4, November 2024 Cover Image, Volume 2, Number 4, November 2024 Design of long-wavelength infrared InAs/InAsSb type-II superlattice avalanche photodetector with stepped grading layer Recent progress on heteroepitaxial growth of single crystal diamond films
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