Hydrogen isotope effects: A new path to high-energy aqueous
Various types of aqueous batteries emerged in the 1800s and 1900s (Table 1), quickly dominating the energy storage market until the invention of non-aqueous rechargeable Li-ion batteries in 1991 and rechargeable Na-ion batteries in more recent years [1].
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Improving upon rechargeable battery technologies: on the role of
In recent years, high-entropy methodologies have garnered significant attention in the field of energy-storage applications, particularly in rechargeable batteries. Specifically, they can impart materials with unique structures and customized properties,
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Vanadium Dioxide Cathodes for High‐Rate
The photo-ZIBs also demonstrate enhanced high-rate capabilities under illumination, as well as a capacity retention of ≈90% over 1000 cycles. The proposed photo-ZIBs are considered a promising new technology for
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Single-atom catalysts for high-energy rechargeable batteries
Rechargeable lithium-ion batteries (LIBs) have become popular and pervasive as sustainable energy storage devices due to their long cycle life, high specific power, and energy density. 67 However, current LIBs have an energy density of less than 200 W h kg −1 or 600 W h L −1, which cannot meet the ever-increasing demands from many emerging applications, such
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Pathways towards high energy aqueous rechargeable batteries
The concept of combining both catalysis and aqueous battery have been employed in the construction of the Zn–Mn hybrid aqueous battery with intriguingly high energy density [230], [231]. It is worth of future exploration of this strategy in expanding the voltage window and improving the overall performance of the aqueous battery system.
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Strategies toward the development of high-energy-density lithium batteries
According to reports, the energy density of mainstream lithium iron phosphate (LiFePO 4) batteries is currently below 200 Wh kg −1, while that of ternary lithium-ion batteries ranges from 200 to 300 Wh kg −1 pared with the commercial lithium-ion battery with an energy density of 90 Wh kg −1, which was first achieved by SONY in 1991, the energy density
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Zn anode sustaining high rate and high loading in organic
However, high concentration and electrolyte viscosity remarkably increase the cost and damage the rate capability of Zn rechargeable batteries. As an alternative to aqueous ones, a list of non-aqueous electrolytes, such as Acetonitrile (AN) [ 17, 18 ], Triethyl phosphate (TEP) [19], Trimethyl phosphate (TMP) [ 20, 21 ], Dimethyl sulphoxide (DMSO) [ 22, 23 ] and
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Advancements and Challenges in Perovskite-Based
Perovskite-based photo-batteries (PBs) have been developed as a promising combination of photovoltaic and electrochemical technology due to their cost-effective design and significant increase in solar-to-electric power
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An advanced high energy-efficiency rechargeable aluminum-selenium battery
Remarkably, lithium-ion batteries have remained the power system of choice for electronic devices, smart grids, and electric vehicles since their first commercialization by Sony Corporation around three decades ago [[1], [2], [3]].The main advanced secondary batteries under development are based on monovalent cations (Li +, Na +, and K +).Attaining high energy
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Achieving high-rate and durable aqueous rechargeable Zn-Ion batteries
Achieving high-rate and durable aqueous rechargeable Zn-Ion batteries by enhancing the successive electrochemical conversion reactions studying and optimizing the electrochemical reactions of cathode materials may open a new door to improve aqueous battery performance, and it is of significant potential to broaden the selection spectrum of
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Decoupled cathode with light assistance for rechargeable zinc-air
Rechargeable zinc-air batteries (RZABs), with their superior theoretical energy density (about 1370 Wh kg −1 without oxygen), pose as a practical alternative for extensive energy storage [1, 2].These batteries leverage the non-flammability of aqueous electrolytes and zinc''s chemical stability [[3], [4], [5]], and offer an economical advantage due to the relatively lower cost of zinc
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The photoelectrode of photo-rechargeable zinc-ion batteries:
The third type is to directly use a bifunctional electrochemical energy storage material as a photoelectrode to construct a dual-electrode photo-rechargeable battery [16, 17].Bifunctional electrochemical energy storage materials as the main components of the photoelectrodes, which can realize the light absorption, photogenerated carrier generation and participate in redox
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High‐Entropy Oxides for Rechargeable Batteries
High‐entropy oxides (HEOs) have garnered significant attention within the realm of rechargeable batteries owing to their distinctive advantages, which encompass diverse structural attributes, customizable compositions, entropy‐driven stabilization effects, and remarkable superionic conductivity. Despite the brilliance of HEOs in energy conversion and storage applications,
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Recent progress in rechargeable calcium-ion batteries for high
The appearance of multivalent rechargeable battery makes it possible to develop new energy storage system with high energy density. Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could influence the work reported in this paper.
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A Long‐Life Aqueous Rechargeable Aluminum‐Ammonium Hybrid
An average working voltage of 1.15 V, remarkable rate capability, and an attractive energy density of 89.3 Wh kg −1 are achieved. Notably, the Prussian blue analogue
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The concept of high entropy for rechargeable batteries
4 天之前· High-entropy solutions have been developed as electrolytes for rechargeable batteries and have shown many intriguing phenomena, with one commonly observed phenomenon
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Chloride ion batteries-excellent candidates for new
Zhao X et al (2014) Chloride ion battery: a new member in the rechargeable battery family. J Power Sources 245:706–711. Article CAS Google Scholar Zhang M, Yan D, Li W (2022) Regulation of dual-ion batteries via the
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A review of recent developments in rechargeable lithium–sulfur batteries
As the demands of high-performance batteries are continuously increasing, with large-scale energy storage systems and electric mobility equipment, lithium–sulfur batteries have become an attractive candidate for the new generation of high-performance batteries due to their high theoretical capacity (1675 mA h g −1) and energy density (2600 Wh kg −1). However,
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Rechargeable Batteries of the Future—The
Battery 2030+ is the "European large-scale research initiative for future battery technologies" with an approach focusing on the most critical steps that can enable the acceleration of the
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Research advances of the electrolytes for rechargeable
In commercial applications, multiple statistics have identified that the production and utilization of rechargeable LIBs occupies the vast majority of the global secondary batteries market, which are extensively assembled in portable electronic components, new energy vehicles and other applications [13, 14].Unfortunately, lithium resources have a limited and uneven
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Challenges and Prospects of Low‐Temperature
Abstract Rechargeable batteries have been indispensable for various portable devices, electric vehicles, and energy storage stations. with a low attenuation rate of 0.0009% per cycle over 20 000 cycles, but also show stable
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Improving upon rechargeable battery technologies: on the role of high
The emergence of high-entropy strategies has opened up new possibilities for designing battery materials and has propelled the advancement of the energy-storage sector. 60–79 Nevertheless, until now, only a few studies have thoroughly summarized the impact of high-entropy effects on improving electrochemical characteristics. For this reason, this review aims at providing an
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Metastability and Reversibility of Anionic Redox-Based Cathode for High
INTRODUCTION. In recent decades, rechargeable lithium-ion batteries (LIBs) have commercially dominated the portable electronics market. 1 Moreover, LIBs are turning into the most encouraging market areas for powering electric vehicles. However, the energy density and cycle life of state-of-the-art LIBs have to be further enhanced to satisfy expectations for
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Functionally gradient materials for sustainable and high-energy
Functionally gradient materials (FGM) have continuously changing composition/structure along a particular direction and thus gradient variations in their properties or functions [12].FGM design in rechargeable batteries can thus effectively mitigate the above-mentioned kinetics and stability limitations at different scales [13].One typical example involves
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Recent Advances in Porous Polymers for Solid-State Rechargeable
In the past decade, some porous organic polymers have emerged for solid-state lithium batteries, including amorphous porous aromatic frameworks PAFs and crystalline covalent organic frameworks COFs, metal organic frameworks MOFs, etc., with their high chemical absorption rate and ionic conductivity, it is expected to become the most popular materials for next-generation
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Recent Advances in Porous Polymers for Solid-State Rechargeable
Polymers 2022, 14, 4804 3 of 23 Figure 1. Applications and contributions of polymers in All−Solid−State Rechargeable Lithium Battery. Adapted with permission from ref. [27].
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Toward Practical High‐Energy and
[3, 4] The recent rise of the demand for high rate, high capacity, quick-charging LIBs to meet the portable devices with prolonging stand-by time, electric vehicles with long-distance driving
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Electrode particulate materials for advanced rechargeable
Developing rechargeable batteries with high energy density and long cycle performance is an ideal choice to meet the demand of energy storage system. The
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Improving upon rechargeable battery technologies: on the role of
As an innovative approach, the high-entropy method opens up new avenues for developing high-performance battery materials. By increasing the configurational entropy (compositional
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Rechargeable High-Capacity Antimony-Aluminum Batteries
Therefore, it is necessary to develop new clean energy sources such as wind energy and solar energy, but there are not convenient for applications. Developing rechargeable batteries with high energy density, low cost, and improved safety is essential for a sustainable energy future. In recent years, lithium-ion batteries have high energy
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A Deep Dive into Spent Lithium-Ion Batteries: from Degradation
The demand for LIBs is largely due to their high energy density, lack of memory effect, and low discharge rate. With respect to the cumulative installed capacity of China''s electric power storage market, new energy storage accounts for 12.5%, of which lithium-ion batteries account for 89.7%.
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A Portable and Efficient Solar‐Rechargeable Battery with Ultrafast
high power density but have low energy density (usually less -than 15 Wh kg 1). To further improve the overall performance of integrated systems from the state-of-the-art PV-LIBs and PV-SCs systems, new portable SEESSs featuring both high power and energy densities are our target. 2.1 Mechanism of Integrated Solar-Rechargeable PSM-AIB Battery
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A new class of Solvent-in-Salt electrolyte for high-energy rechargeable
Lithium-based batteries as highly efficient energy storage devices have long been considered as promising power supply for various electric vehicles and smart grid storage systems 1,2,3,4.However
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The concept of high entropy for rechargeable batteries
4 天之前· For energy storage, rechargeable batteries play a crucial role as electrochemical energy storage devices [40], [41], [42] 1990s, lithium-ion batteries (LIBs) were commercialized and are now prevailing in energy storage markets such as electric vehicles and portable electronics [43], [44].However, typical LIBs with LiFePO 4 or LiCoO 2-based cathode, graphite
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Improving upon rechargeable battery technologies: on the role of high
In recent years, high-entropy methodologies have garnered significant attention in the field of energy-storage applications, particularly in rechargeable batteries. Specifically, they can impart materials with unique structures and customized properties, thereby showcasing new attributes and application pote Batteries showcase
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Quadruple the rate capability of high-energy batteries through
Here the authors conceptualize a porous current collector that successfully reduces the effective Li+ transport distance by half, quadrupling the diffusion-limited C-rate
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