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Additive-rejuvenated anions (De)intercalation into graphite

The purpose of electrolyte optimization is to promote the electrode reaction toward high performance of batteries. Therefore, the influence of FEC on the anion intercalated graphite was investigated. As shown in Fig. 3 a, the discharge specific capacity of graphite cathode in the FEC-added electrolyte was 47 mAh g −1 at 285 mA g −1,

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Fullerene Intercalation of MXene Toward Super‐Long‐Cycle Sodium Ion Storage

On the copper metal substrate, the s-SAMO energy is further lowered to just 1 eV above the Fermi level, making the applications of s-SAMO state in transport more plausible.

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Aqueous Zinc-Ion Storage in MoS2 by Tuning the Intercalation Energy

Aqueous Zn-ion batteries present low-cost, safe, and high-energy battery technology but suffer from the lack of suitable cathode materials because of the sluggish intercalation kinetics associated with the large size of hydrated zinc ions. Herein we report an effective and general strategy to transform inactive intercalation hosts into efficient Zn2+ storage

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Recent advances in perovskite oxides for anion-intercalation supercapacitor: A review

In recent years, research on new energy development and energy efficiency has attracted significant attention due to global energy crisis and deteriorating pollution [1]. To solve these problems, tremendous research efforts have been devoted to prepare devices with several advantages, such as high efficiency, sustainability,

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Intercalation-Induced Localized Conversion Reaction in h -CuSe

Developing transition metal selenides with intercalation features provides a new strategy for realizing the above cathode materials. Herein, we report a storage mechanism of sodium ion in hexagonal CuSe (h-CuSe) based on the DFT guidance.

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Manipulating anion intercalation enables a high-voltage aqueous

The difference between the intercalation energy and hydration energy of bis (trifluoromethane)sulfonimide makes the best use of the electrochemical stability

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Intercalation-type catalyst for non-aqueous room temperature

Introduction. Room temperature (RT) sodium-sulfur (Na-S) batteries emerge as strong contenders for the next-generation energy storage systems. This

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Intercalation in Two-Dimensional Transition Metal Carbides and

Since its discovery in 2011, the emerging family of two-dimensional (2D) transition metal carbides, nitrides, and carbonitrides (denoted as MXenes) has shown tremendous promise in the field of ener The Raman peaks of Ti 3 C 2 T x change significantly as the negative voltage was applied in H 2 SO 4 electrolyte, with good

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Advantageous Functional Integration of Adsorption-Intercalation-Conversion Hybrid Mechanisms in 3D Flexible Nb

Advantageous Functional Integration of Adsorption-Intercalation-Conversion Hybrid Mechanisms in 3D Flexible Nb 2 O 5 @Hard Carbon@MoS 2 @Soft Carbon Fiber Paper Anodes for Ultrafast and Super-Stable Sodium Storage Corresponding Author Yan Yu [email

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Manipulating anion intercalation enables a high-voltage

Yu, M. et al. Interlayer gap widened alpha-phase molybdenum trioxide as high-rate anodes for dual-ion-intercalation energy storage ion battery with fast electrode kinetics and super-long life

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Ce ions and polyaniline co-intercalation into MOF-derived porous V 2 O 5 nanosheets with a synergistic energy storage

Download Citation | Ce ions and polyaniline co-intercalation into MOF-derived porous V 2 O 5 nanosheets with a synergistic energy storage mechanism for high-capacity and super

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Chlorophyll derivative intercalation into Nb2C MXene for lithium-ion energy storage

Two-dimensional (2D) MXenes have attracted extensive attentions for their excellent energy storage ability. In the current study, our main goal is to report on the delamination of the Nb2C MXene using a chlorophyll-a derivative (zinc methyl 3-devinyl-3-hydroxymethyl-pyropheophorbide a (Chl)) to produce Chl@Nb2C composites as the

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2D Superlattices for Efficient Energy Storage and Conversion

Construction of 2D unilamellar nanosheet-based superlattices is highly effective for improved performances in energy storage and conversion systems, especially the superlattices of

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Intercalation as a versatile tool for fabrication, property tuning,

Intercalation is an effective method of modifying the interlayer interactions, doping 2D materials, modifying their electronic structure or even converting them into starkly

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Beyond lithium and intercalation chemistry: Calcium-sulfur reaction conversion energy storage

Lithium-ion intercalation chemistries represent the world''s most ubiquitous energy storage systems; however, these systems rely on low capacity m |Beyond lithium and intercalation chemistry: Calcium-sulfur reaction conversion energy storage

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Interlayer gap widened α-phase molybdenum trioxide as high-rate anodes for dual-ion-intercalation energy storage devices

A fast-kinetics dual-ion-intercalation energy storage device is further assembled by combining the modified Li foil, graphite flakes (average size 20 µm), sodium alginate, Super P carbon

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Lithium storage in titania films as a function of position: unification of intercalation electrode and super

C.-C. Chen, J. Maier, Decoupling electron and ion storage and the path from interfacial storage to artificial electrodes, Nature Energy 2018, 3 (2), 102-108. View Show abstract

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Ce ions and polyaniline co-intercalation into MOF-derived porous V2O5 nanosheets with synergistic energy storage

DOI: 10.1039/d3ta06554e Corpus ID: 266265862 Ce ions and polyaniline co-intercalation into MOF-derived porous V2O5 nanosheets with synergistic energy storage mechanism for high-capacity and super-stable aqueous zinc-ion batteries @article{Zhang2024CeIA

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Ce ions and polyaniline co-intercalation into MOF-derived porous V2O5 nanosheets with a synergistic energy storage

Ce ions and polyaniline co-intercalation into MOF-derived porous V 2 O 5 nanosheets with a synergistic energy storage mechanism for high-capacity and super-stable aqueous zinc-ion batteries Y. Zhang, Z. Li, B. Zhao, Z. Wang and J. Liu, J. Mater

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Ce ions and polyaniline co-intercalation into MOF-derived porous V2O5 nanosheets with a synergistic energy storage

Ce ions and polyaniline co-intercalation into MOF-derived porous V2O5 nanosheets with a synergistic energy storage mechanism for high-capacity and super-stable aqueous zinc-ion Journal of Materials Chemistry A ( IF 10.7Pub Date 10.

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A new cathode material for super-valent battery based on aluminium ion intercalation and deintercalation

Due to their small footprint and flexible siting, rechargeable batteries are attractive for energy storage systems. A super-valent battery based on aluminium ion intercalation and deintercalation

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Intercalation in 2D materials and in situ studies

Intercalation can induce property changes in materials related to photonics, electronics, optoelectronics, thermoelectricity, magnetism, catalysis and

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Fullerene Intercalation of MXene Toward Super‐Long‐Cycle

The as-prepared C 60 @MXene hybrid is applied as a novel anode of SIBs, exhibiting outstanding electrochemical performance and super-long cycling

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Energy storage through intercalation reactions: electrodes for

Multivalent intercalation batteries are another compelling route to higher energy densities, and one of the main thrusts of the Joint Center for Energy Storage Research (JCESR) [].

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Ce ions and polyaniline co-intercalation into MOF-derived porous

Ce ions and polyaniline co-intercalation into MOF-derived porous V 2 O 5 nanosheets with a synergistic energy storage mechanism for high-capacity and super

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Emerging Two–Dimensional Intercalation Pseudocapacitive

Batteries and supercapacitors stand as prominent energy storage devices in practical applications, differing in their energy density and power density based on charge storage mechanisms. Due to their high–power density, SCs are highly preferred in high–power systems requiring rapid energy delivery within seconds to minutes.

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Driving grid stability: Integrating electric vehicles and energy storage

These systems play a crucial role in managing power fluctuations by storing excess energy during low-demand periods and releasing it when demand is high, thereby contributing to grid stability. Operators can lessen the effects of intermittent power imbalances brought on by RESs and fluctuations in load by integrating ESSs into the

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Phase-engineered cathode for super-stable potassium storage

During cycling, the cathode material experiences immense stress due to phase transformation, resulting in capacity degradation. Here, we show phase-engineered VO 2 as an improved potassium-ion

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Synergistic in-situ intercalation and surface modification strategy for Ti3C2Tx MXene-based supercapacitors with enhanced electrochemical energy

Ti 3 C 2 T x MXene with unique physicochemical properties is a promising negative electrode for high performance supercapacitors, but its full potential for energy storage is limited by inherent restacking and unfavorable F surface termination. Here, a synergistic in-situ intercalation and surface modification strategy for enhancing the

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Intercalation in 2D materials and in situ studies

Intercalation can induce property changes in materials related to photonics, electronics, optoelectronics, thermoelectricity, magnetism, catalysis and energy storage, unlocking or improving the

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Defect engineering of molybdenum disulfide nanosheets boosting super Zn2+ storage from polyaniline intercalation

In this work, peony-like structured MoS2 with intercalation of polyaniline and crystal defects was prepared by a simple hydrothermal method. The defect-rich structure and broad interlayer distance can effectively provide vast ion transport paths to enhance the ion diffusion rate. PA-MoS2 can maintain 157.7 m

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Alkali metal bilayer intercalation in graphene

Abstract. Alkali metal (AM) intercalation between graphene layers holds promise for electronic manipulation and energy storage, yet the underlying mechanism remains challenging to fully comprehend

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Towards Efficient Energy Storage Materials: Lithium Intercalation

energy sources requires high efficiency energy storage systems. Electrochemical systems, like batteries and super-capacitors, play a crucial role in this field.

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Aqueous Zinc Ion Storage in MoS2 by Tuning the Intercalation Energy

Herein we report an effective and general strategy to transform inactive intercalation hosts into efficient Zn2+ storage materials through intercaltion energy tuning. Using MoS2 as a model system

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A novel aqueous Li+ (or Na+)/Br− hybrid-ion battery with super high areal capacity and energy density

With the explosive growth in intermittent renewable sources and the global drive toward decarbonizing the energy economy, reliable large-scale electrical energy storage technologies with high safety and low cost are urgently needed. Aqueous batteries hold the intrinsic advantages of nonflammability and low c

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Non–ferroelectric intercalation structure based on Aurivillius phase Bi4Ti3O12: A research arena to achieve high energy storage

Furthermore, setting up series of contrast experiments, the intercalated ferroelectric BFO unit may improve the energy storage traits in Fig. 2 (a)–2. However, the results are not so obvious when compared with pristine BTO. The coercive field (E c) and remnant polarization (P r) are basically equal.) are basically equal.

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Fullerene Intercalation of MXene Toward Super‐Long‐Cycle Sodium Ion Storage

The as‐prepared C 60 @MXene hybrid is applied as a novel anode of SIBs, exhibiting outstanding electrochemical performance and super‐long cycling stability. C 60 @MXene‐based SIB delivers a specific capacity of 226.8 mAh g −1 at 0.1 A g −1 after 300 cycles, which surpasses that obtained from the pristine MXene anode, and retains 94.5%

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Ce ions intercalation and structural engineering assist MOF

Ce ions and polyaniline co-intercalation into MOF-derived porous V 2 O 5 nanosheets with a synergistic energy storage mechanism for high-capacity and super

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