Recent advances in carbon-based anodes for high-performance sodium-ion batteries: Mechanism, modification and characterizations

IF 21.1 1区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Today Pub Date : 2024-06-01 DOI:10.1016/j.mattod.2024.04.007
Siyuan Ma , Wengang Yan , Yu Dong , Yuefeng Su , Liang Ma , Yongjian Li , Youyou Fang , Bin Wang , Shaobo Wu , Cai Liu , Sheng Chen , Lai Chen , Qing Huang , Jionghui Wang , Ning Li , Feng Wu
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Abstract

Lithium-ion batteries (LIBs) are insufficient for large-scale energy storage due to limited lithium resources. Sodium-ion batteries (SIBs) are considered the most promising alternative to LIBs due to their abundant resources and potential for broad industrialization. However, the rapid development of SIBs is hindered by the availability of suitable anode materials. Most reported anode materials for SIBs are either expensive or have inherent flaws, making them unsuitable for large-scale production. Carbon materials have gained significant attention due to their sample resources, low cost, and diverse structures. However, the lack of a systematic discussion on the various structural configurations of carbon materials is a challenging issue. This review comprehensively investigated the preparation processes for nearly all carbon-based materials, including graphite, soft carbon, and hard carbon. It also proposed optimization strategies by thoroughly exploring the sodium storage mechanism of various carbon materials. In addition, based on advanced in-situ characterization technology, the solid electrolyte interface and structural changes of carbon materials during the electrochemical process were summarized. A creative analysis was conducted to establish a correlation relationship between the long-range and short-range ordered structure of carbon materials and their impact on important performance metrics such as initial coulombic efficiency, capacity, rate, cycle stability, and other relevant factors. Finally, this review presented personal insights into the challenges and issues faced by carbon materials, aiming to drive the advancement of SIBs.

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用于高性能钠离子电池的碳基阳极的最新进展:机理、改性和表征
由于锂资源有限,锂离子电池(LIB)不足以用于大规模能源存储。钠离子电池(SIB)因其丰富的资源和广泛的工业化潜力,被认为是最有希望替代锂离子电池的电池。然而,合适的负极材料阻碍了钠离子电池的快速发展。大多数已报道的 SIB 负极材料要么价格昂贵,要么存在固有缺陷,不适合大规模生产。碳材料因其样本资源丰富、成本低廉、结构多样而备受关注。然而,对碳材料的各种结构配置缺乏系统的讨论是一个具有挑战性的问题。本综述全面研究了几乎所有碳基材料的制备过程,包括石墨、软碳和硬碳。同时,通过深入探讨各种碳材料的钠储存机制,提出了优化策略。此外,基于先进的原位表征技术,总结了碳材料在电化学过程中的固体电解质界面和结构变化。通过创造性的分析,建立了碳材料长程和短程有序结构之间的相关关系及其对初始库仑效率、容量、速率、循环稳定性等重要性能指标的影响。最后,本综述就碳材料面临的挑战和问题提出了个人见解,旨在推动 SIB 的发展。
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来源期刊
Materials Today
Materials Today 工程技术-材料科学:综合
CiteScore
36.30
自引率
1.20%
发文量
237
审稿时长
23 days
期刊介绍: Materials Today is the leading journal in the Materials Today family, focusing on the latest and most impactful work in the materials science community. With a reputation for excellence in news and reviews, the journal has now expanded its coverage to include original research and aims to be at the forefront of the field. We welcome comprehensive articles, short communications, and review articles from established leaders in the rapidly evolving fields of materials science and related disciplines. We strive to provide authors with rigorous peer review, fast publication, and maximum exposure for their work. While we only accept the most significant manuscripts, our speedy evaluation process ensures that there are no unnecessary publication delays.
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