Sodium-ion batteries: present and future
TLDR
Current research on materials is summarized and discussed and future directions for SIBs are proposed to provide important insights into scientific and practical issues in the development of S IBs.Abstract:
Energy production and storage technologies have attracted a great deal of attention for day-to-day applications. In recent decades, advances in lithium-ion battery (LIB) technology have improved living conditions around the globe. LIBs are used in most mobile electronic devices as well as in zero-emission electronic vehicles. However, there are increasing concerns regarding load leveling of renewable energy sources and the smart grid as well as the sustainability of lithium sources due to their limited availability and consequent expected price increase. Therefore, whether LIBs alone can satisfy the rising demand for small- and/or mid-to-large-format energy storage applications remains unclear. To mitigate these issues, recent research has focused on alternative energy storage systems. Sodium-ion batteries (SIBs) are considered as the best candidate power sources because sodium is widely available and exhibits similar chemistry to that of LIBs; therefore, SIBs are promising next-generation alternatives. Recently, sodiated layer transition metal oxides, phosphates and organic compounds have been introduced as cathode materials for SIBs. Simultaneously, recent developments have been facilitated by the use of select carbonaceous materials, transition metal oxides (or sulfides), and intermetallic and organic compounds as anodes for SIBs. Apart from electrode materials, suitable electrolytes, additives, and binders are equally important for the development of practical SIBs. Despite developments in electrode materials and other components, there remain several challenges, including cell design and electrode balancing, in the application of sodium ion cells. In this article, we summarize and discuss current research on materials and propose future directions for SIBs. This will provide important insights into scientific and practical issues in the development of SIBs.read more
Citations
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Journal ArticleDOI
Rational design of Na0.67Ni0.2Co0.2Mn0.6O2 microsphere cathode material for stable and low temperature sodium ion storage
Peter Steinmüller,Naveed Iqbal +1 more
TL;DR: In this paper , a suitable Co-substituted Na0.67Ni0.2Co0.6O2 microsphere is designed and synthesized, which can effectively increase the interlayer spacing of transition metal oxides (TMO2), resulting in a faster Na+ diffusion kinetics.
Journal ArticleDOI
Aqueous Zn-MnO2 battery: Approaching the energy storage limit with deep Zn2+ pre-intercalation and revealing the ions insertion/extraction mechanisms
TL;DR: In this paper , deep Zn2+ ions intercalated δ-MnO2 were achieved by the in situ electrochemical deposition route, which significantly enhanced the diffusion ability of Zn 2+ due to the synergistic effects of zinc pillars and structural H2O.
Journal ArticleDOI
Impact of biomass inorganic impurities on hard carbon properties and performance in Na-ion batteries
Adrian Beda,Adrian Beda,Jean-Marc Le Meins,Jean-Marc Le Meins,Pierre-Louis Taberna,Pierre-Louis Taberna,Patrice Simon,Patrice Simon,Camelia Matei Ghimbeu,Camelia Matei Ghimbeu,Camelia Matei Ghimbeu +10 more
TL;DR: In this article, the influence of inorganic impurities of three raw local biomass wastes (asparagus, grape and potato) on the hard carbon properties and on their electrochemical performance is investigated, by performing a washing step either before or after the thermal treatment (TT) at 1300°C.
Journal ArticleDOI
Precisely Designed Mesoscopic Titania for High-Volumetric-Density Pseudocapacitance.
TL;DR: In this paper, a mesoscale TiO2 structure with precisely controlled mesoporous frameworks as a high-density pseudocapacitive model system was presented, which achieved maximized gravimetric capacity and volumetric capacity at 0.025 A g-1.
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Dealloyed Nanoporous Materials for Rechargeable Post-Lithium Batteries
TL;DR: The recent research progresses on these novel electrode materials in the emerging post-lithium batteries are discussed, including the rational-design of NPMs, structure-performance correlation in each battery system and insights into future development of this rapidly growing field.
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