从锂离子电池到钠离子电池的可持续能源存储:近期研究进展与展望综述》。

IF 7 2区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Chemical record Pub Date : 2024-11-20 DOI:10.1002/tcr.202400176
Konok Chandra Bhowmik, Md Arafat Rahman, Md Muktadir Billah, Aoyon Paul
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引用次数: 0

摘要

从锂离子电池到钠离子电池的转变是寻求环保型能源储存方案的一个重要转折点。本综述通过深入研究钠离子电池(NIB)技术的最新发展,强调了钠离子电池(NIB)技术在解决与锂离子系统相关的环境和财务问题方面的潜力。研究指出,钠的储量更丰富,价格也比锂低,因此钠离子电池具有多种优势,可大幅降低储能系统的总成本。此外,本研究还探讨了锂离子电池(LIB)和 NIB 的电解质成分、电极材料和电池性能等重要领域的新发现。文章重点介绍了阳极和阴极材料的进展,重点是提高锂离子电池和无负极电池的能量密度、循环稳定性和速率能力。文章还介绍了在理解电化学机制方面取得的进展,以及与 NIB 相关的特殊困难,如材料降解和钠离子扩散。还讨论了未来的研究方向,重点是提高钠离子技术在电网中的可扩展性和商业可行性。考虑到可持续发展目标和可再生能源的整合,本综述在结论中评估了钠离子电池对未来能源存储的可能影响。
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From Lithium-Ion to Sodium-Ion Batteries for Sustainable Energy Storage: A Comprehensive Review on Recent Research Advancements and Perspectives.

A significant turning point in the search for environmentally friendly energy storage options is the switch from lithium-ion to sodium-ion batteries. This review highlights the potential of sodium-ion battery (NIB) technology to address the environmental and financial issues related to lithium-ion systems by thoroughly examining recent developments in NIB technology. It is noted that sodium is more abundant and less expensive than lithium, NIBs have several benefits that could drastically lower the total cost of energy storage systems. In addition, this study examines new findings in important fields including electrolyte compositions, electrode materials, and battery performances of lithium-ion batteries (LIBs) and NIBs. The article highlights advancements in anode and cathode materials, with a focus on improving energy density, cycle stability, and rate capability of both LIBs and NIBs. The review also covers the advances made in comprehending the electrochemical mechanisms and special difficulties associated with NIBs, such as material degradation and sodium ion diffusion. Future research directions are discussed, with an emphasis on enhancing the scalability and commercial viability of sodium-ion technology over lithium on Electric Grid. Considering sustainability objectives and the integration of renewable energy sources, the review's assessment of sodium-ion batteries' possible effects on the future state of energy storage is included in its conclusion.

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来源期刊
Chemical record
Chemical record 化学-化学综合
CiteScore
11.00
自引率
3.00%
发文量
188
审稿时长
>12 weeks
期刊介绍: The Chemical Record (TCR) is a "highlights" journal publishing timely and critical overviews of new developments at the cutting edge of chemistry of interest to a wide audience of chemists (2013 journal impact factor: 5.577). The scope of published reviews includes all areas related to physical chemistry, analytical chemistry, inorganic chemistry, organic chemistry, polymer chemistry, materials chemistry, bioorganic chemistry, biochemistry, biotechnology and medicinal chemistry as well as interdisciplinary fields. TCR provides carefully selected highlight papers by leading researchers that introduce the author''s own experimental and theoretical results in a framework designed to establish perspectives with earlier and contemporary work and provide a critical review of the present state of the subject. The articles are intended to present concise evaluations of current trends in chemistry research to help chemists gain useful insights into fields outside their specialization and provide experts with summaries of recent key developments.
期刊最新文献
Recent Advances in Selenium-Mediated Redox Functional Group Interconversions. From Lithium-Ion to Sodium-Ion Batteries for Sustainable Energy Storage: A Comprehensive Review on Recent Research Advancements and Perspectives. Recent Progress in Steroid C(sp3)-H Functionalization. N-Heterocyclic Carbene Catalyzed Reactions Involving Acetylenic Breslow and/or Acylazolium as Key Intermediates. Recent Advances of C-S Coupling Reaction of (Hetero)Arenes by C-H Functionalization.
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