High-Performance Dual-Ion Battery Based
Dual-ion batteries (DIBs) are a new kind of energy storage device that store energy involving the intercalation of both anions and cations on the cathode and anode
Dual-ion batteries: The emerging alternative
A stand-alone wind power supply with a Li-ion battery energy storage system. Renew. Sustain. Energy Rev. (2014) J. Perkins Engineering cathode-electrolyte interface of graphite to enable ultra long-cycle and high-power dual-ion batteries. Journal of Power Sources, Volume 471, 2020, Article 228466. Yao Wang, , Denis Y.W. Yu. Show 3 more
An anode-free sodium dual-ion battery,Energy Storage
Batteries with both high energy and power densities are desired for practical applications. Constructing anode-free batteries is effective to achieve high energy density, yet remains highly challenging to obtain high power density simultaneously. To overcome this dilemma, dual-ion storage strategy is introduced to anode-free battery. As a proof of concept,
Preparation of porous graphitic carbon and its dual-ion
Key Words: Dual-ion hybrid capacitor; Porous graphitic carbon; Lithium-ion battery; Dual-ion battery; Citrate 1 Introduction As electric vehicles and portable mobile electronics have rapidly developed in recent decades, there has been a growing demand for commercially available energy storage devices with long battery life, quick charging and discharging
Efficient high-rate aqueous alkaline battery with dual-ion
Efficient high-rate aqueous alkaline battery with dual-ion intercalation chemistry enabled by asymmetric electrode polarization Xiaoqi Xu,1 Hangqi Yang,1 Xiaolong Wang,2 Dihua Wang,1 Xiaohong Hu,3 and Chuang Peng1,4,* SUMMARY Aqueous batteries hold promise for grid energy storage for their intrinsic safety and cost effectiveness. Suppressing
A high capacity dual-carbon battery universal design for ultrafast
Herein, a novel dual‑carbon battery based on lithium-ion electrolyte, utilizing reduced oxide graphene (rGO) as the cathode material and mesocarbon microbead (MCMB) as the anode material is designed for efficient energy storage. The resulting dual‑carbon battery delivers a high reversible capacity of 280 mA h g −1 at 1 A g −1 over a
A novel high-energy-density lithium-free anode dual-ion battery
Dual-ion batteries (DIBs) have emerged as promising energy storage systems with the merits of high energy density, outstanding rate performance, simple design, low cost, and green and environmentally friendly characteristics. 1., 2. With regard to DIBs, the negative electrode materials greatly affect the energy density. 3., 4., 5.
Recent advances in zinc-ion hybrid energy storage: Coloring high-power
The fast-changing development of portable electronic displays and public traffic facilities has accelerated research advances in high-performance energy storage devices including supercapacitors, metal-ion batteries and their hybrid systems [1], [2], [3] supercapacitors, the energy storage is realized by means of interfacial cation/anion sorption in
Designing high-power graphite-based dual-ion batteries
There is a need to develop a battery system that can provide high power and high energy density, and a dual-ion battery (DIB) is a promising candidate [1]. A Ragone plot showing the energy density vs. power density of various energy storage systems is presented in Fig. 5. Dual-ion battery will have higher power density than lithium-ion
A new dual-ion hybrid energy storage
However, the lack of suitable electrodes limits the energy density of dual ion batteries to be lower than 200 W h kg −1. 39,40 Taking advantage of the dual-ion battery system, a special
Dual-ion batteries
The clear advantages of dual-ion batteries are that nickel and cobalt are not used as the cathodes are typically made from carbon or organic materials and the negative ion intercalation may happen at very high potentials, considerably
A new dual-ion hybrid energy storage system with
The resulting Si/C//EG hybrid system delivered highly attractive energy densities of 252–222.6 W h kg −1 at power densities of 215–5420 W kg −1, which are superior to those of conventional electrochemical double layer capacitors and
Multifunctional Molecule‐Grafted V2C
A variety of dual-ion energy storage devices using typical Li-ion battery electrolytes have been demonstrated by pairing graphite cathode with different Li +-hosting anode
An anode-free sodium dual-ion battery
Herein, an anode-free dual-ion battery with both high energy and power densities was reported (Fig. 1). Specifically, a plasma-treated carbon-coated Al current collector (Al/N-C)||polytriphenylamine (PTPAn) anode-free sodium dual-ion battery (AFSDIB) was constructed. This dual-ion storage strategy can be extended to the other anode-free
High energy density potassium-based dual graphite battery with high
A K-based dual graphite dual ion battery is assembled using this high concentration electrolyte. The battery achieves a discharge medium voltage of ∼4.24 V and delivers a specific capacity of 94.2 mAh g −1 at a current density of 100 mA g −1 .
Interlayer gap widened α-phase molybdenum trioxide as high
Employing high-rate ion-intercalation electrodes represents a feasible way to mitigate the inherent trade-off between energy density and power density for electrochemical energy storage devices
A review of the advances and prospects of aqueous Dual-Ion
Among the various available energy storage systems (ESS), electrochemical energy storage stands out as an important method due to its high efficiency and limited geographical constraints. Lithium-ion batteries (LIBs) hold a prominent position in 3C electronic products, electric vehicles (EVs), and other fields due to their high energy density, long cycle
Morphological engineering of PTAm@CNTs cathode for high-rate
With the increasing awareness of the economic and environmental costs of natural resource consumption, the design, production, and application of advanced energy storage devices will promote the growth of the global green economy and meet the requirements of global carbon neutrality in the near future [1, 2].Lithium-ion batteries (LIBs), a high-energy
An Aqueous Mg 2+ ‐Based Dual‐Ion Battery with
Organic dual-ion batteries show high energy densities which are, in principle, suitable for large-scale energy storage, but they suffer from inherent instability and safety issues.
High-performance graphite||Li4Ti5O12 dual-ion full batteries
High-energy-density dual-ion battery for stationary storage of electricity using concentrated potassium fluorosulfonylimide Engineering cathode-electrolyte interface of graphite to enable ultra long-cycle and high-power dual-ion batteries. Carbon-coated MoS 1.5 Te 0.5 nanocables for efficient sodium-ion storage in non-aqueous dual-ion
High-voltage K/Zn dual-ion battery with 100,000-cycles life using
Lithium-ion battery is the most state-of-the-art electrochemical energy storage technology [1], [2], [3].But the expensive cost restricts the applications in large-scale energy storage and promote researchers to develop alternative advanced secondary batteries [4], [5], [6], [7].Owing to the high volumetric energy density (5855 mAh cm −3) and reasonable redox
Dual-ion batteries: The emerging alternative rechargeable batteries
Development of energy storage technologies is thriving because of the increasing demand for renewable and sustainable energy sources. Although lithium-ion batteries (LIBs) are already mature technologies that play important roles in modern society, the scarcity of cobalt and lithium sources in the Earth''s crust limits their future deployment at the scale required to
Journal of Materials Chemistry A
200 W h kg 1.39,40 Taking advantage of the dual-ion battery system, a special dual-ion hybrid electrochemical device con-structed using a high voltage supercapacitor-type cathode and a battery-type anode via a dual-ion mechanism may lead to the achievement of high energy density, power density and cycling stability.
Boosting potassium-based dual ion battery with high energy
The environmental degradation and energy crisis resulting from the conventional fossil fuels consumption have prompted a strong demand for environmental-friendly energy storage systems with high economic efficiency and high energy density [1, 2].Owing to the advantages of environmental benignancy, high energy density and high safety under high
Designing anthraquinone-based conjugated microporous polymers with dual
A COF-like N-rich conjugated microporous polytriphenylamine cathode with pseudocapacitive anion storage behavior for high-energy aqueous zinc dual-ion batteries Adv. Mater., 33 ( 34 ) ( 2021 ), Article e2101857, 10.1002/adma.202101857
Electrolyte design for high power dual-ion battery with graphite
DOI: 10.1016/j.cej.2024.152602 Corpus ID: 270157390; Electrolyte design for high power dual-ion battery with graphite cathode for low temperature applications @article{Zhao2024ElectrolyteDF, title={Electrolyte design for high power dual-ion battery with graphite cathode for low temperature applications}, author={Yu Zhao and Hekang Zhu and Lidan Xing and Denis Y.W. Yu},
Electrolyte design for high power dual-ion battery with graphite
The design of electrolyte suitable for low-temperature use is of great significance to expand the applications of energy storage devices. Dual-ion battery (DIB) with fast ion transport kinetics is expected to be a nascent battery system that can deliver high power density both at room temperature and low temperatures.
High energy density and durable pouch-cell graphite-based dual
Graphite-based dual-ion batteries (GDIBs) represent a promising battery concept for large-scale energy storage on account of low cost, high working voltage, and
High energy density and durable pouch-cell graphite-based dual ion
Novel prototypes of stable secondary batteries with high energy densities are highly desired to meet the increasing energy consumption and the intermittent nature of renewable sources [1, 2] this regard, battery technologies beyond lithium-ion battery (LIB) chemistry with low amounts of critical raw materials such as cobalt, nickel, and natural
Sb as High-Capacity Anion Host for H+/PO43– Reverse Dual-Ion Battery
3 天之前· Aqueous proton batteries (APBs) have attracted increasing attention due to their high-power capability and low-temperature tolerance. Electrode materials remain a bottleneck and have restricted the further development of APBs. Here, we report H+/PO43– reverse dual-ion batteries (RDIBs) with a Sb anode functioning as PO43– host and a Turnbull blue analogue
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