Works matching DE "SODIUM-sulfur batteries"
Results: 104
Rational Electrolyte Design toward Cyclability Remedy for Room‐Temperature Sodium–Sulfur Batteries.
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- Angewandte Chemie, 2022, v. 134, n. 30, p. 1, doi. 10.1002/ange.202205416
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Streamline Sulfur Redox Reactions to Achieve Efficient Room‐Temperature Sodium–Sulfur Batteries.
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- Angewandte Chemie, 2022, v. 134, n. 16, p. 1, doi. 10.1002/ange.202200384
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Sulfur in Amorphous Silica for an Advanced Room‐Temperature Sodium–Sulfur Battery.
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- Angewandte Chemie, 2021, v. 133, n. 18, p. 10217, doi. 10.1002/ange.202015932
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General Synthesis of Single‐Atom Catalysts for Hydrogen Evolution Reactions and Room‐Temperature Na‐S Batteries.
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- Angewandte Chemie, 2020, v. 132, n. 49, p. 22355, doi. 10.1002/ange.202009400
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Polyolefin‐Based Janus Separator for Rechargeable Sodium Batteries.
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- Angewandte Chemie, 2020, v. 132, n. 38, p. 16868, doi. 10.1002/ange.202007008
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Long‐Life Room‐Temperature Sodium–Sulfur Batteries by Virtue of Transition‐Metal‐Nanocluster–Sulfur Interactions.
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- Angewandte Chemie, 2019, v. 131, n. 5, p. 1498, doi. 10.1002/ange.201811080
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An Investigation into Electrolytes and Cathodes for Room-Temperature Sodium–Sulfur Batteries.
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- Batteries, 2024, v. 10, n. 6, p. 216, doi. 10.3390/batteries10060216
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Advances in Strategic Inhibition of Polysulfide Shuttle in Room-Temperature Sodium-Sulfur Batteries via Electrode and Interface Engineering.
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- Batteries, 2023, v. 9, n. 4, p. 223, doi. 10.3390/batteries9040223
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Repelling Polysulfides Using White Graphite Introduced Polymer Membrane as a Shielding Layer in Ambient Temperature Sodium Sulfur Battery.
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- Advanced Materials Interfaces, 2019, v. 6, n. 24, p. N.PAG, doi. 10.1002/admi.201901497
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Strong Surface Bonding of Polysulfides by Teflonized Carbon Matrix for Enhanced Performance in Room Temperature Sodium‐Sulfur Battery.
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- Advanced Materials Interfaces, 2019, v. 6, n. 7, p. N.PAG, doi. 10.1002/admi.201801873
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Operational Strategies to Improve the Performance and Long‐Term Cyclability of Intermediate Temperature Sodium‐Sulfur Batteries.
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- ChemElectroChem, 2021, v. 8, n. 6, p. 1156, doi. 10.1002/celc.202100223
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Trimethyl Phosphate for Nonflammable Carbonate‐Based Electrolytes for Safer Room‐Temperature Sodium‐Sulfur Batteries.
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- ChemElectroChem, 2019, v. 6, n. 4, p. 1229, doi. 10.1002/celc.201801833
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Stable Dendrite‐Free Room Temperature Sodium‐Sulfur Batteries Enabled by a Novel Sodium Thiotellurate Interface.
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- Angewandte Chemie, 2024, v. 136, n. 51, p. 1, doi. 10.1002/ange.202412287
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Innentitelbild: Amorphous FeSnO<sub>x</sub> Nanosheets with Hierarchical Vacancies for Room‐Temperature Sodium‐Sulfur Batteries (Angew. Chem. 38/2024).
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- Angewandte Chemie, 2024, v. 136, n. 38, p. 1, doi. 10.1002/ange.202404816
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Amorphous FeSnO<sub>x</sub> Nanosheets with Hierarchical Vacancies for Room‐Temperature Sodium‐Sulfur Batteries.
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- Angewandte Chemie, 2024, v. 136, n. 38, p. 1, doi. 10.1002/ange.202404816
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Multiphysics Modeling of High Temperature Planar Sodium Sulfur Batteries.
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- CET Journal - Chemical Engineering Transactions, 2022, v. 94, p. 1093, doi. 10.3303/CET2294182
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A Comparative Future Levelized Cost of Storage of Static Electrochemical and Mechanical Energy Storage Technologies in 1-MW Energy and Power Applications.
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- CET Journal - Chemical Engineering Transactions, 2022, v. 94, p. 355, doi. 10.3303/CET2294059
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Design towards recyclable micron-sized Na<sub>2</sub>S cathode with self-refinement mechanism.
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- Nature Communications, 2024, v. 15, n. 1, p. 1, doi. 10.1038/s41467-024-54316-9
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An electrochemically stable homogeneous glassy electrolyte formed at room temperature for all-solid-state sodium batteries.
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- Nature Communications, 2022, v. 13, n. 1, p. 1, doi. 10.1038/s41467-022-30517-y
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A Mo<sub>5</sub>N<sub>6</sub> electrocatalyst for efficient Na<sub>2</sub>S electrodeposition in room-temperature sodium-sulfur batteries.
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- Nature Communications, 2021, v. 12, n. 1, p. 1, doi. 10.1038/s41467-021-27551-7
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A Fe<sub>3</sub>N/carbon composite electrocatalyst for effective polysulfides regulation in room-temperature Na-S batteries.
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- Nature Communications, 2021, v. 12, n. 1, p. 1, doi. 10.1038/s41467-021-26631-y
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Sodium-beta alumina batteries: Status and challenges.
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- JOM: The Journal of The Minerals, Metals & Materials Society (TMS), 2010, v. 62, n. 9, p. 31, doi. 10.1007/s11837-010-0132-5
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High‐Capacity and Stable Sodium‐Sulfur Battery Enabled by Confined Electrocatalytic Polysulfides Full Conversion.
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- Advanced Functional Materials, 2021, v. 31, n. 17, p. 1, doi. 10.1002/adfm.202100666
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Lewis Acid–Base Interactions between Polysulfides and Boehmite Enables Stable Room‐Temperature Sodium–Sulfur Batteries.
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- Advanced Functional Materials, 2020, v. 30, n. 50, p. 1, doi. 10.1002/adfm.202005669
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Rational Design of Binders for Stable Li‐S and Na‐S Batteries.
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- Advanced Functional Materials, 2020, v. 30, n. 6, p. 1, doi. 10.1002/adfm.201907931
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A General Metal‐Organic Framework (MOF)‐Derived Selenidation Strategy for In Situ Carbon‐Encapsulated Metal Selenides as High‐Rate Anodes for Na‐Ion Batteries.
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- Advanced Functional Materials, 2018, v. 28, n. 16, p. 1, doi. 10.1002/adfm.201707573
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Activation of Oxygen-Stabilized Sulfur for Li and Na Batteries.
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- Advanced Functional Materials, 2016, v. 26, n. 5, p. 745, doi. 10.1002/adfm.201503918
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On the formation of solid solutions with blödite- and kröhnkite-type structures.
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- Journal of Thermal Analysis & Calorimetry, 2017, v. 130, n. 3, p. 1925, doi. 10.1007/s10973-017-6522-y
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Energy Storage Benefits Assessment Using Multiple-Choice Criteria: The Case of Drini River Cascade, Albania.
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- Energies (19961073), 2022, v. 15, n. 11, p. 4032, doi. 10.3390/en15114032
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An Evaluation of Energy Storage Cost and Performance Characteristics.
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- Energies (19961073), 2020, v. 13, n. 13, p. 3307, doi. 10.3390/en13133307
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Electrochemical characterization of the Pt/β′′-AlO system under conditions of in situ electrochemical modification of catalytic activity for propane combustion.
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- Journal of Applied Electrochemistry, 2010, v. 40, n. 10, p. 1883, doi. 10.1007/s10800-010-0158-y
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Recent Advances of Catalytic Effects in Cathode Materials for Room‐Temperature Sodium‐Sulfur Batteries.
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- ChemPlusChem, 2021, v. 86, n. 10, p. 1461, doi. 10.1002/cplu.202100328
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Research on Wide-Temperature Rechargeable Sodium-Sulfur Batteries: Features, Challenges and Solutions.
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- Materials (1996-1944), 2023, v. 16, n. 12, p. 4263, doi. 10.3390/ma16124263
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In Situ TEM Study of Structural Changes in Na-β″-Alumina Using Electron Beam Irradiation.
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- Materials (1996-1944), 2022, v. 15, n. 7, p. 2663, doi. 10.3390/ma15072663
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Pentagon Defects Accelerating Polysulfides Conversion Enabled High‐Performance Sodium–Sulfur Batteries.
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- Advanced Functional Materials, 2024, v. 34, n. 11, p. 1, doi. 10.1002/adfm.202310598
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Recent Advances in Transition‐Metal‐Based Catalytic Material for Room‐Temperature Sodium–Sulfur Batteries (Adv. Funct. Mater. 5/2024).
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- Advanced Functional Materials, 2024, v. 34, n. 5, p. 1, doi. 10.1002/adfm.202470028
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Recent Advances in Transition‐Metal‐Based Catalytic Material for Room‐Temperature Sodium–Sulfur Batteries.
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- Advanced Functional Materials, 2024, v. 34, n. 5, p. 1, doi. 10.1002/adfm.202302626
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- Article
Highly Flexible Carbon Film Implanted with Single‐Atomic Zn−N<sub>2</sub> Moiety for Long‐Life Sodium‐Sulfur Batteries.
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- Advanced Functional Materials, 2024, v. 34, n. 5, p. 1, doi. 10.1002/adfm.202214353
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Sodium-Sulfur Batteries with Unprecedented Capacity, Cycling Stability and Operation Temperature Range Enabled by a CoFe<sub>2</sub>O<sub>4</sub> Catalytic Additive Under an External Magnetic Field.
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- Advanced Functional Materials, 2023, v. 33, n. 48, p. 1, doi. 10.1002/adfm.202305908
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Toward the Advanced Next‐Generation Solid‐State Na‐S Batteries: Progress and Prospects.
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- Advanced Functional Materials, 2023, v. 33, n. 20, p. 1, doi. 10.1002/adfm.202214430
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A Review on the Status and Challenges of Cathodes in Room‐Temperature Na‐S Batteries.
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- Advanced Functional Materials, 2023, v. 33, n. 11, p. 1, doi. 10.1002/adfm.202212600
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Dynamic Multistage Coupling of FeS<sub>2</sub>/S Enables Ultrahigh Reversible Na–S Batteries.
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- Advanced Functional Materials, 2023, v. 33, n. 5, p. 1, doi. 10.1002/adfm.202211821
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The Future for Room‐Temperature Sodium–Sulfur Batteries: From Persisting Issues to Promising Solutions and Practical Applications.
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- Advanced Functional Materials, 2022, v. 32, n. 36, p. 1, doi. 10.1002/adfm.202205622
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Stable Cycling of Room‐Temperature Sodium‐Sulfur Batteries Based on an In Situ Crosslinked Gel Polymer Electrolyte.
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- Advanced Functional Materials, 2022, v. 32, n. 32, p. 1, doi. 10.1002/adfm.202201191
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A β"‐Alumina/Inorganic Ionic Liquid Dual Electrolyte for Intermediate‐Temperature Sodium–Sulfur Batteries (Adv. Funct. Mater. 48/2021).
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- Advanced Functional Materials, 2021, v. 31, n. 48, p. 1, doi. 10.1002/adfm.202170352
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A β"‐Alumina/Inorganic Ionic Liquid Dual Electrolyte for Intermediate‐Temperature Sodium–Sulfur Batteries.
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- Advanced Functional Materials, 2021, v. 31, n. 48, p. 1, doi. 10.1002/adfm.202105524
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Iso-Oriented Anatase TiO<sub>2</sub> Mesocages as a High Performance Anode Material for Sodium-Ion Storage.
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- Scientific Reports, 2015, p. 11960, doi. 10.1038/srep11960
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Challenges and prospects for room temperature solid-state sodium-sulfur batteries.
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- Nano Research, 2024, v. 17, n. 3, p. 1402, doi. 10.1007/s12274-023-5993-3
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A Comprehensive Assessment of Storage Elements in Hybrid Energy Systems to Optimize Energy Reserves.
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- Sustainability (2071-1050), 2024, v. 16, n. 20, p. 8730, doi. 10.3390/su16208730
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Research Progress toward Room Temperature Sodium Sulfur Batteries: A Review.
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- Molecules, 2021, v. 26, n. 6, p. 1535, doi. 10.3390/molecules26061535
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