Design Strategies for High-Energy-Density Aqueous Zinc Batteries

Article Chemistry, Multidisciplinary

Regulating Zinc Deposition Behaviors by the Conditioner of PAN Separator for Zinc-Ion Batteries

Yun Fang et al.

Summary: The design of a functional separator provides an effective way to modify Zn2+ deposition behavior and achieve a dendrite-free Zn metal anode for aqueous zinc-ion batteries.

ADVANCED FUNCTIONAL MATERIALS (2022)

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Article Chemistry, Multidisciplinary

Organic-Inorganic Hybrid Cathode with Dual Energy-Storage Mechanism for Ultrahigh-Rate and Ultralong-Life Aqueous Zinc-Ion Batteries

Xuemei Ma et al.

Summary: This work introduces organic-inorganic hybrid cathodes with a dual energy-storage mechanism for aqueous zinc-ion batteries, providing high specific capacity, elevated voltage, and excellent long-term cycle stability. Density functional theory calculations show remarkable electronic conductivity with an ultralow diffusion barrier, opening new research directions in high-energy secondary batteries.

ADVANCED MATERIALS (2022)

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Article Chemistry, Multidisciplinary

Aqueous Zn2+/Na+ dual-salt batteries with stable discharge voltage and high columbic efficiency by systematic electrolyte regulation

Chunli Wang et al.

Summary: This study presents a Zn2+/Na+ dual-salt battery with optimized electrolyte concentration, achieving fast discharging capability, suppressed zinc dendrites, stable discharge voltage, and nearly 100% Columbic efficiency. The systematic investigation of electrolyte effects shows the importance of electrolyte regulation in improving the performance of aqueous dual-salt hybrid batteries for energy storage.

SCIENCE CHINA-CHEMISTRY (2022)

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Article Chemistry, Physical

Manipulating Ion Concentration to Boost Two-Electron Mn4+/Mn2+ Redox Kinetics through a Colloid Electrolyte for High-Capacity Zinc Batteries

Xuesong Xie et al.

Summary: By using an ion concentration/dilution strategy, the capacity and efficiency of Zn/MnO2 batteries can be improved, leading to enhanced performance in terms of capacity release, cycle life, and elevated-temperature endurance.

ADVANCED ENERGY MATERIALS (2022)

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Review Nanoscience & Nanotechnology

Interfacial Engineering Strategy for High-Performance Zn Metal Anodes

Bin Li et al.

Summary: This article reviews the role of interfacial engineering in inhibiting the growth of Zn dendrites and the occurrence of side reactions. Researchers have regulated the deposition behavior of Zn ions through surface modification and the addition of electrolyte additives to achieve uniform Zn nucleation and flat Zn deposition, improving the cycling stability of Zn anodes.

NANO-MICRO LETTERS (2022)

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Article Multidisciplinary Sciences

Integrated 'all-in-one' strategy to stabilize zinc anodes for high-performance zinc-ion batteries

Canpeng Li et al.

Summary: An 'all-in-one' (AIO) electrode was developed by combining structural design, interface modification, and electrolyte optimization, which can effectively improve the stability and performance of zinc-ion batteries.

NATIONAL SCIENCE REVIEW (2022)

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Article Chemistry, Multidisciplinary

High-Performance Aqueous Zinc Batteries Based on Organic/Organic Cathodes Integrating Multiredox Centers

Yi Zhao et al.

Summary: This study optimized the structure of organic/organic cathodes by electrodepositing stable polymer layers onto nanoporous carbon, showing high capacity, long lifespan, and excellent capacity retention. The synergistic effect of the double organic layers led to improved performance even at high discharge currents and mass loading.

ADVANCED MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Superior-Performance Aqueous Zinc-Ion Batteries Based on the In Situ Growth of MnO2 Nanosheets on V2CTX MXene

Xiaodong Zhu et al.

Summary: The manganese-vanadium hybrid K-V2C@MnO2 cathode, designed with MnO2 nanosheets uniformly formed on a V2CTX MXene surface, shows excellent electrochemical performance for aqueous ZIBs due to high conductivity, abundant active sites, and the synergistic reaction. It achieves a high specific capacity of 408.1 mAh g(-1) at 0.3 A g(-1) and maintains 119.2 mAh g(-1) at a high current density of 10 A g(-1) over 10000 cycles, outperforming almost all reported Mn-based cathodes in aqueous ZIBs.

ACS NANO (2021)

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Article Chemistry, Multidisciplinary

Non-Metal Ion Co-Insertion Chemistry in Aqueous Zn/MnO2 Batteries

Shuai Wang et al.

Summary: The co-insertion of dual ions in aqueous zinc batteries, such as H+/NH4+ in Zn/MnO2 battery, enhances electrochemical performance by providing fast kinetics of ion diffusion and reversible structure evolution, leading to excellent rate capability and cycling performance. This work may facilitate the design of aqueous rechargeable batteries with non-metallic ions.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2021)

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Review Materials Science, Multidisciplinary

Boosting zinc storage performance via conductive materials

Pengchao Ruan et al.

Summary: Aqueous zinc ion batteries are considered as one of the most promising energy storage systems due to their low cost, high safety, and theoretical capacity. However, achieving high-performance aqueous ZIBs with long cycle life and high energy density is still challenging, as it requires overcoming the low conductivity and poor structural stability of cathode materials. By incorporating conductive materials with cathode materials, such as carbon nanostructures, the performance of aqueous ZIBs can be effectively improved.

MATERIALS RESEARCH BULLETIN (2021)

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Article Materials Science, Multidisciplinary

Crossroads in the renaissance of rechargeable aqueous zinc batteries

Junhua Song et al.

Summary: Aqueous zinc batteries are dominating the primary battery market with alkaline chemistries and are now being developed as rechargeable devices for grid-scale energy storage applications. Significant progress has been made in improving cyclability in alkaline, neutral, and mild acidic systems, with a focus on static closed cell designs in this review. Challenges and advancements in developing highly rechargeable alkaline and mild acidic batteries are examined, while flow batteries and open systems like zinc-air batteries are excluded due to space constraints.

MATERIALS TODAY (2021)

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Article Multidisciplinary Sciences

A four-electron Zn-I2 aqueous battery enabled by reversible I-/I2/I+ conversion

Yiping Zou et al.

Summary: In this study, a four-electron aqueous zinc-iodine battery was developed by enhancing the iodine electrochemistry using a specially designed electrolyte. Experimental characterization and modeling showed that limited water activity and sufficient free chloride ions in the electrolyte are crucial for the four-electron process. The advantages of the electrolyte also help stabilize the zinc anode, leading to a high energy density and reliable cycling performance for the Zn-I-2 aqueous battery.

NATURE COMMUNICATIONS (2021)

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Article Chemistry, Physical

Co2+/3+/4+-Regulated Electron State of Mn-O for Superb Aqueous Zinc-Manganese Oxide Batteries

Jie Ji et al.

Summary: This study introduces a multi-valence cobalt-doped Mn3O4 cathode material (Co-Mn3O4) with high capacity and reversibility. The various states of doped cobalt play different roles in the manganese oxide, effectively improving the performance of the battery.

ADVANCED ENERGY MATERIALS (2021)

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Article Nanoscience & Nanotechnology

Electrochemical Injection Oxygen Vacancies in Layered Ca2Mn3O8 for Boosting Zinc-Ion Storage

Lipeng Wang et al.

Summary: Manganese-based compounds have shown promise as cathode materials for zinc-ion batteries due to their high operating voltage and large specific capacity, but their structural collapse and slow kinetics have posed challenges. A novel layered Ca2Mn3O8 material with low ion diffusion barrier and high structural stability was developed through an electrochemical charging process, significantly enhancing the battery's performance through increased electrochemical active area and improved zinc ions diffusion coefficient. This study provides an effective method for vacancy regulation in electrode materials, offering new possibilities for improving the electrochemical performance of zinc-ion batteries.

ACS APPLIED MATERIALS & INTERFACES (2021)

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Review Chemistry, Multidisciplinary

High-Voltage Zinc-Ion Batteries: Design Strategies and Challenges

Jianping Yan et al.

Summary: This review discusses the design strategies and challenges of high-voltage rechargeable zinc-ion batteries (ZIBs), introduces recent advances in high-voltage cathode materials, and explores strategies to increase cathode operating voltage and factors influencing voltage in redox reactions.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

High-Performance Aqueous Na-Zn Hybrid Ion Battery Boosted by Water-In-Gel Electrolyte

Wending Pan et al.

Summary: The study introduces a novel water-in-gel electrolyte based CuHCF-CNT/Zn Na-Zn hybrid battery, which achieves high discharge voltage and large capacity, delivering superior energy density and cycling stability. When further coupled with the Zn-O-2 reaction, an ultrahigh discharge capacity can be achieved.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Synergistic Effect between S and Se Enhancing the Electrochemical Behavior of SexSy in Aqueous Zn Metal Batteries

Wei Li et al.

Summary: By introducing selenium and its synergistic effect with sulfur, high-performance conversional cathode materials have been successfully designed in this study, with optimized selenium content achieving excellent electrochemical properties to enhance the energy density and stability of aqueous Zn batteries.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Chemistry, Physical

Maximizing Energy Storage of Flexible Aqueous Batteries through Decoupling Charge Carriers

Chunlong Dai et al.

Summary: High theoretical specific capacity zinc and sulfur are selected as the anode and cathode, with a strategy proposed to decouple charge carriers in anolyte and catholyte to simultaneously enhance the energy storage performance of flexible aqueous batteries. The new zinc-sulfur hybrid battery boasts ultrahigh theoretical specific capacity and volumetric energy density.

ADVANCED ENERGY MATERIALS (2021)

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Review Chemistry, Applied

From aqueous Zn-ion battery to Zn-MnO2 flow battery: A brief story

Tong Xue et al.

Summary: AZIB is an attractive technology due to its low cost, high safety, and eco-friendliness. Recent studies have shown significant performance enhancement through revamping of the electrochemistry and redesigning of the electrolyte and interface. The Zn-MnO2 electrolytic mechanism shows great promise for large-scale static energy storage.

JOURNAL OF ENERGY CHEMISTRY (2021)

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Article Chemistry, Physical

Uncover the mystery of high-performance aqueous zinc-ion batteries constructed by oxygen-doped vanadium nitride cathode: Cationic conversion reaction works

Duo Chen et al.

Summary: This study demonstrates for the first time a new energy storage mechanism involving cationic conversion reactions in the vanadium oxide-based ZIB system. Experimental and theoretical calculations confirm the reversible characteristics of these reactions, opening up a new direction for high-capacity ZIBs.

ENERGY STORAGE MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Highly Reversible Aqueous Zn-MnO2 Battery by Supplementing Mn2+-Mediated MnO2 Deposition and Dissolution

Xiaofan Shen et al.

Summary: The research achieved high durability and energy density in rechargeable Zn-MnO2 batteries by adjusting Mn2+ concentration and utilizing a 3D carbon nanotube foam skeleton. This approach enabled a reversible MnO2/Mn2+ redox conversion and resulted in a battery with extremely high durability, high energy density, and high-rate capacity.

ADVANCED FUNCTIONAL MATERIALS (2021)

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Article Engineering, Environmental

Crystal water enlarging the interlayer spacing of ultrathin V2O5•4VO2•2.72H2O nanobelts for high-performance aqueous zinc-ion battery

Ting-Ting Lv et al.

Summary: The study synthesized ultrathin V2O5 center dot 4VO(2).2.72H(2)O nanobelts as cathode materials for ZIBs, exhibiting improved capacity and rate capability. Cycling tests showed high capacity retention and reversibility of the cathode material.

CHEMICAL ENGINEERING JOURNAL (2021)

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Article Chemistry, Physical

TiO2 (B) anode for high-voltage aqueous Li-ion batteries

Anxing Zhou et al.

Summary: Aqueous Li-ion batteries (ALIBs) are seen as a promising large-scale energy storage technology due to their safety and cost-effectiveness, but face challenges with cathodic materials. The TiO2 B anode offers low lithiation potential, high capacity, and stability, and when paired with LiMn2O4, can provide high energy density. The use of this anode in a full cell demonstrates superior cycling performance with high capacity retention, making it a potential option for high-energy ALIBs.

ENERGY STORAGE MATERIALS (2021)

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Review Chemistry, Physical

Understanding cathode materials in aqueous zinc-organic batteries

Tao Sun et al.

Summary: This paper discusses the potential of organic electrode materials in aqueous zinc-ion batteries, introducing their basic energy storage mechanism and strategies for improving their electrochemical performance through molecular engineering.

CURRENT OPINION IN ELECTROCHEMISTRY (2021)

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Article Chemistry, Multidisciplinary

Jahn-Teller Distortion Induced Mn2+-Rich Cathode Enables Optimal Flexible Aqueous High-Voltage Zn-Mn Batteries

Lixin Dai et al.

Summary: Zn-Mn systems face challenges such as Zn dendrites and low-capacity Mn4+/Mn3+ process. By utilizing Mn3+ reconstruction and disproportionation, stable Mn2+-rich manganese oxides are prepared, promoting reversible Mn2+/Mn4+ kinetics and mitigating oxygen-related redox activity. The improved design leads to a high stability and high area capacity of the Mn2+-rich cathode, enabling the construction of a practical and stable Zn-Mn battery.

ADVANCED SCIENCE (2021)

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Review Chemistry, Physical

Undesired Reactions in Aqueous Rechargeable Zinc Ion Batteries

Vivek Verma et al.

Summary: Rechargeable zinc-ion batteries using aqueous electrolytes offer high safety, low cost, and fast charge/discharge rates, but also lead to undesired reactions that result in capacity fade and limited operational lifetimes.

ACS ENERGY LETTERS (2021)

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Article Chemistry, Physical

Battery-Everywhere Design Based on a Cathodeless Configuration with High Sustainability and Energy Density

Hongmei Tang et al.

Summary: By decoupling reactions, the battery's operating voltage has been increased, and the hydrogel electrolyte design has achieved high energy output and long lifespan. Hydrogel electrolytes can be easily regenerated, driving the development of a new generation of sustainable energy storage devices.

ACS ENERGY LETTERS (2021)

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Review Chemistry, Multidisciplinary

Advances and Perspectives of Cathode Storage Chemistry in Aqueous Zinc-Ion Batteries

Xiao Wang et al.

Summary: This review discusses the key challenges of rechargeable aqueous zinc-ion batteries, analyzing the structural features and electrochemical properties of different cathode materials, and proposing various electrode design strategies to guide future research activities. The focus is mainly on achieving high energy density and durable cathode materials.

ACS NANO (2021)

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Article Chemistry, Multidisciplinary

A Universal Compensation Strategy to Anchor Polar Organic Molecules in Bilayered Hydrated Vanadates for Promoting Aqueous Zinc-Ion Storage

Fang Wan et al.

Summary: Introducing organic molecules with high and low polar groups into the interlayer of layered vanadium oxides can enhance electrochemical performance and promote reversible Zn2+ transfer. The cathode material AlxV2O5 designed based on this strategy shows improved performance, and the pouch cell assembled with dendrite-free N-doped carbon nanofiber@Zn anode exhibits a higher energy density.

ADVANCED MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Molecular Engineering of Covalent Organic Framework Cathodes for Enhanced Zinc-Ion Batteries

Wenxi Wang et al.

Summary: Covalent organic frameworks (COFs) show promising performance as electrode materials for electrochemical storage, particularly in zinc-ion batteries, when the quinone group is introduced into their structure to enhance Zn2+ storage capability and increase average charge-discharge potential. This study highlights the importance of molecular engineering in improving the practical charge storage performance of COFs.

ADVANCED MATERIALS (2021)

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Article Chemistry, Multidisciplinary

A Cascade Battery: Coupling Two Sequential Electrochemical Reactions in a Single Battery

Chunlong Dai et al.

Summary: The cascade battery proposed in this study couples two sequential electrochemical reactions in a single battery, showing many advantages compared to traditional batteries. It integrates two batteries internally, eliminating the need for additional inactive connecting materials, can more fully utilize the inactive reaction chamber, and achieve a higher areal capacity even at low solid cathode loading.

ADVANCED MATERIALS (2021)

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Article Chemistry, Multidisciplinary

Studying the Conversion Mechanism to Broaden Cathode Options in Aqueous Zinc-Ion Batteries

Junnan Hao et al.

Summary: Research findings indicate that Zn2+ storage in CuI cathode involves a direct conversion reaction mechanism, rather than an intercalation mechanism, and this mechanism can also be applied to other high-capacity cathodes effectively.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2021)

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Article Chemistry, Multidisciplinary

Ultra-Fast and Scalable Saline Immersion Strategy Enabling Uniform Zn Nucleation and Deposition for High-Performance Zn-Ion Batteries

Xilian Xu et al.

Summary: An ultrafast and simple method is developed to achieve a stable Zn anode by immersing a Zn plate into an aqueous solution of CuSO4, which forms a uniform and robust protective layer. This leads to long-term cycle life and high efficiency, showing great potential for practical applications in high-performance aqueous Zn-ion batteries.

SMALL (2021)

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Article Chemistry, Multidisciplinary

Aqueous MnV2O6-Zn Battery with High Operating Voltage and Energy Density

Yan Wu et al.

Summary: This study reports the use of MnV2O6 as a material for aqueous Zn ion batteries, showing excellent performance in high-capacity Zn ion storage, with improved structural integrity and high energy density after introducing carbon nanotubes. DFT analyses demonstrate the stepwise Zn ion insertion into the MnV2O6 lattice, and ex-situ analyses confirm the high structural reversibility of the MnV2O6 cathode during extended cycling, highlighting the great potential of MnV2O6 for viable aqueous Zn ion battery systems.

SMALL (2021)

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Article Chemistry, Physical

In Situ Lattice Tunnel Distortion of Vanadium Trioxide for Enhancing Zinc Ion Storage

Junwei Ding et al.

Summary: Research on aqueous zinc-ion batteries is in its early stages due to limited cathode material options, particularly those with tunnel structures. A novel in situ electrochemical lattice distortion of vanadium trioxide (V2O3) is demonstrated for ultrafast Zn2+ storage, showing high capacity, remarkable rate performance, and high energy and power densities. This unique reaction highlights the potential of tunnel-type cathodes for achieving ultrafast zinc ion storage.

ADVANCED ENERGY MATERIALS (2021)

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Article Chemistry, Physical

A high-voltage activated high-erformance cathode for aqueous Zn-ion batteries

Kaiyue Zhu et al.

Summary: Search for high-capacity and stable cathodes is vital for the commercial development of high-energy-density, low-cost, and safe aqueous Zn-ion batteries. An activated VO2 cathode with high capacity and stability was developed by in situ electrochemical oxidation, demonstrating high discharge capacity, superior high-rate performance, and excellent cycling stability, making it a promising cathode for practical ZIBs.

ENERGY STORAGE MATERIALS (2021)

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Article Chemistry, Physical

Fe-doping enabled a stable vanadium oxide cathode with rapid Zn diffusion channel for aqueous zinc-ion batteries

Fangfang Wu et al.

Summary: A stable layer-structured vanadium oxide nanobelt (FeVO) with an expanded interlayer spacing up to 10.8 angstrom, achieved through Fe doping, shows outstanding cyclic stability of 300 cycles at a low current density of 0.5 A g(-1) with a high retention rate of 94.6%. The boosted electrochemical performance is attributed to the large interlayer space providing ion diffusion path and a stable layered structure. These characteristics indicate great potential for high-performance aqueous zinc ion batteries.

MATERIALS TODAY ENERGY (2021)

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Article Green & Sustainable Science & Technology

Achieving long-cycle-life Zn-ion batteries through interfacial engineering of MnO2-polyaniline hybrid networks

Pengchao Ruan et al.

Summary: The study introduces a novel aqueous zinc ion battery hybrid cathode with improved long-cycling performance through interface engineering strategy, demonstrating high capacity, excellent energy density, and outstanding long-term cycling performance.

SUSTAINABLE MATERIALS AND TECHNOLOGIES (2021)

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Article Chemistry, Physical

pH-Buffer Contained Electrolyte for Self-Adjusted Cathode-Free Zn-MnO2 Batteries with Coexistence of Dual Mechanisms

Zhexuan Liu et al.

Summary: This study investigates a cathode-free Zn-MnO2 battery with dual mechanisms in a mild acidic environment, emphasizing the decisive effect of pH value in the electrolyte on the mechanisms. Through the use of acetic acid as a buffering additive, the fluctuation phenomenon during operation is effectively suppressed, achieving a self-adjusting mechanism and improving battery performance.

SMALL STRUCTURES (2021)

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Article Materials Science, Multidisciplinary

Interfacial adsorption-insertion mechanism induced by phase boundary toward better aqueous Zn-ion battery

Lutong Shan et al.

Summary: In this study, a biphasic vanadate material was reported, and a novel interfacial adsorption-insertion mechanism induced by phase boundaries was detected. First-principles calculations showed that this mechanism can enhance specific capacity, reduce diffusion energy barrier, and promote faster reaction kinetics.

INFOMAT (2021)

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Article Chemistry, Multidisciplinary

Towards high-areal-capacity aqueous zinc-manganese batteries: promoting MnO2 dissolution by redox mediators

Jiafeng Lei et al.

Summary: Researchers introduced a mediator strategy to facilitate MnO2 dissolution and recover 'lost' capacity from exfoliated MnO2, improving cycling stability at high areal capacity. The iodide mediator chemically reduces solid MnO2 to form Mn2+ and oxidizes to tri-iodide (I-3(-)), completing one mediation cycle. This strategy significantly enhances the cycling stability and demonstrates the highest areal capacity achieved for reported Zn-Mn batteries.

ENERGY & ENVIRONMENTAL SCIENCE (2021)

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Article Chemistry, Multidisciplinary

Principles of interlayer-spacing regulation of layered vanadium phosphates for superior zinc-ion batteries

Linfeng Hu et al.

Summary: The study addresses the challenges of sluggish Zn2+ diffusion kinetics and poor cyclic stability in cathode materials for aqueous ZIBs by synthesizing PA-intercalated VOPO4·2H2O materials with different interlayer spacing. The optimized 16.5 angstrom spacing shows enhanced zinc-ion diffusion and cycling stability, leading to improved battery performance.

ENERGY & ENVIRONMENTAL SCIENCE (2021)

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Article Chemistry, Multidisciplinary

Manganese buffer induced high-performance disordered MnVO cathodes in zinc batteries

Shiqiang Wei et al.

Summary: This study demonstrates the buffer role of Mn in an aqueous Zn-ion battery cathode, which stabilizes the electrode structure and modulates the Fermi surface by migrating Mn ions, leading to improved battery performance and cycling stability.

ENERGY & ENVIRONMENTAL SCIENCE (2021)

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Article Chemistry, Multidisciplinary

Zinc/selenium conversion battery: a system highly compatible with both organic and aqueous electrolytes†

Ze Chen et al.

Summary: A new conversion-type Zn-Se battery has been developed, showing superior performance in both organic and aqueous electrolytes with extraordinary capacities, rate capability, and cycling performance. The battery also exhibits very low voltage plateau slopes, allowing for high energy densities and compatibility with various electrolytes, opening new possibilities for zinc batteries.

ENERGY & ENVIRONMENTAL SCIENCE (2021)

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Article Chemistry, Physical

High energy density aqueous zinc-benzoquinone batteries enabled by carbon cloth with multiple anchoring effects

Zhiqiang Luo et al.

Summary: A highly pyridine- and pyrrole-N-doped carbon cloth (NCC) was reported as a promising host for anchoring Benzoquinone (BQ) and its discharge products, resulting in a cathode with high initial capacity and long cycle life for aqueous Zn-ion batteries. This novel strategy provides potential practical applications for constructing high-performance batteries.

JOURNAL OF MATERIALS CHEMISTRY A (2021)

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Article Chemistry, Multidisciplinary

Decoupled amphoteric water electrolysis and its integration with Mn-Zn battery for flexible utilization of renewables

Jianhang Huang et al.

Summary: The decoupled amphoteric water electrolysis system, assisted with MnO2/Mn2+ redox mediator, separates the tightly coupled hydrogen and oxygen production processes into two independent processes, allowing high-efficiency hydrogen production under high power input. This system can be integrated with an Mn-Zn battery to achieve flexible conversion from renewables to hydrogen and electric energy, making full use of renewable resources.

ENERGY & ENVIRONMENTAL SCIENCE (2021)

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Article Chemistry, Multidisciplinary

Electrochemically Derived Graphene-Like Carbon Film as a Superb Substrate for High-Performance Aqueous Zn-Ion Batteries

Yunzhao Wu et al.

ADVANCED FUNCTIONAL MATERIALS (2020)

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Article Nanoscience & Nanotechnology

Bi-Cation Electrolyte for a 1.7 V Aqueous Zn Ion Battery

Na Li et al.

ACS APPLIED MATERIALS & INTERFACES (2020)

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Review Chemistry, Multidisciplinary

Vanadium-Based Nanomaterials: A Promising Family for Emerging Metal-Ion Batteries

Xiaoming Xu et al.

ADVANCED FUNCTIONAL MATERIALS (2020)

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Article Engineering, Environmental

Spatially homogeneous copper foam as surface dendrite-free host for zinc metal anode

Canpeng Li et al.

CHEMICAL ENGINEERING JOURNAL (2020)

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Article Chemistry, Multidisciplinary

MnO2 Nanosheet-Assembled Hollow Polyhedron Grown on Carbon Cloth for Flexible Aqueous Zinc-Ion Batteries

Fangfang Wu et al.

CHEMSUSCHEM (2020)

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Review Chemistry, Multidisciplinary

Organic Cathode Materials for Rechargeable Zinc Batteries: Mechanisms, Challenges, and Perspectives

Jin Cui et al.

CHEMSUSCHEM (2020)

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Article Chemistry, Physical

A High Energy Density Aqueous Battery Achieved by Dual Dissolution/Deposition Reactions Separated in Acid-Alkaline Electrolyte

Chang Liu et al.

ADVANCED ENERGY MATERIALS (2020)

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Article Chemistry, Physical

Membrane-Free Zn/MnO2 Flow Battery for Large-Scale Energy Storage

Guodong Li et al.

ADVANCED ENERGY MATERIALS (2020)

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Article Chemistry, Multidisciplinary

Organic-Inorganic-Induced Polymer Intercalation into Layered Composites for Aqueous Zinc-Ion Battery

Duan Bin et al.

CHEM (2020)

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Article Chemistry, Multidisciplinary

Anodic Oxidation Strategy toward Structure-Optimized V2O3 Cathode via Electrolyte Regulation for Zn-Ion Storage

Hao Luo et al.

ACS NANO (2020)

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Article Chemistry, Multidisciplinary

Atomic Engineering Catalyzed MnO2 Electrolysis Kinetics for a Hybrid Aqueous Battery with High Power and Energy Density

Dongliang Chao et al.

ADVANCED MATERIALS (2020)

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Article Chemistry, Multidisciplinary

Tuning the Kinetics of Zinc-Ion Insertion/Extraction in V2O5 by In Situ Polyaniline Intercalation Enables Improved Aqueous Zinc-Ion Storage Performance

Sucheng Liu et al.

ADVANCED MATERIALS (2020)

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Article Chemistry, Physical

2D Amorphous V2O5/Graphene Heterostructures for High-Safety Aqueous Zn-Ion Batteries with Unprecedented Capacity and Ultrahigh Rate Capability

Xiao Wang et al.

ADVANCED ENERGY MATERIALS (2020)

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Article Energy & Fuels

Decoupling electrolytes towards stable and high-energy rechargeable aqueous zinc-manganese dioxide batteries

Cheng Zhong et al.

NATURE ENERGY (2020)

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Article Chemistry, Multidisciplinary

A Na3V2(PO4)2O1.6F1.4 Cathode of Zn-Ion Battery Enabled by a Water-in-Bisalt Electrolyte

Qiao Ni et al.

ADVANCED FUNCTIONAL MATERIALS (2020)

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Review Chemistry, Multidisciplinary

Design Strategies for High-Performance Aqueous Zn/Organic Batteries

Zhiwei Tie et al.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2020)

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Article Chemistry, Physical

Zn/MnO2 battery chemistry with dissolution-deposition mechanism

Xun Guo et al.

MATERIALS TODAY ENERGY (2020)

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Article Chemistry, Physical

Ultrathin hybrid nanobelts of single-crystalline VO2 and Poly (3,4-ethylenedioxythiophene) as cathode materials for aqueous zinc ion batteries with large capacity and high-rate capability

Xiong Liu et al.

JOURNAL OF POWER SOURCES (2020)

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Article Chemistry, Multidisciplinary

High-Voltage Rechargeable Alkali-Acid Zn-PbO2 Hybrid Battery

Yunpeng Xu et al.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2020)

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Article Chemistry, Multidisciplinary

Electrochemically Induced Metal-Organic-Framework-Derived Amorphous V2O5for Superior Rate Aqueous Zinc-Ion Batteries

Shenzhen Deng et al.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2020)

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Article Chemistry, Physical

Toward a Reversible Mn4+/Mn2+Redox Reaction and Dendrite-Free Zn Anode in Near-Neutral Aqueous Zn/MnO2Batteries via Salt Anion Chemistry

Xiaohui Zeng et al.

ADVANCED ENERGY MATERIALS (2020)

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Article Chemistry, Multidisciplinary

A Low Cost Aqueous Zn-S Battery Realizing Ultrahigh Energy Density

Wei Li et al.

ADVANCED SCIENCE (2020)

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Editorial Material Chemistry, Physical

Toward High-Voltage Aqueous Batteries: Super- or Low-Concentrated Electrolyte?

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