Works matching DE "LITHIUM cell electrodes"
Results: 323
Coordination‐Driven Crosslinking Electrolytes for Fast Lithium‐Ion Conduction and Solid‐State Battery Applications.
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- Angewandte Chemie, 2025, v. 137, n. 3, p. 1, doi. 10.1002/ange.202415727
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Functional Applications of Polymer Electrolytes in High‐Energy‐Density Lithium Batteries.
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- Macromolecular Chemistry & Physics, 2022, v. 223, n. 8, p. 1, doi. 10.1002/macp.202100410
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Frontispiece: Regulating Interfacial Lithium Ion by Artificial Protective Overlayers for High‐Performance Lithium Metal Anodes.
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- Chemistry - A European Journal, 2022, v. 28, n. 19, p. 1, doi. 10.1002/chem.202281962
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Regulating Interfacial Lithium Ion by Artificial Protective Overlayers for High‐Performance Lithium Metal Anodes.
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- Chemistry - A European Journal, 2022, v. 28, n. 19, p. 1, doi. 10.1002/chem.202103300
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Covalent Organic Framework as an Efficient Protection Layer for a Stable Lithium‐Metal Anode.
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- Angewandte Chemie, 2022, v. 134, n. 18, p. 1, doi. 10.1002/ange.202116586
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WSe<sub>2</sub> Flakelets on N‐Doped Graphene for Accelerating Polysulfide Redox and Regulating Li Plating.
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- Angewandte Chemie, 2022, v. 134, n. 7, p. 1, doi. 10.1002/ange.202116048
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Phenoxy Radical‐Induced Formation of Dual‐Layered Protection Film for High‐Rate and Dendrite‐Free Lithium‐Metal Anodes.
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- Angewandte Chemie, 2021, v. 133, n. 51, p. 26922, doi. 10.1002/ange.202110441
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Fatigue‐Resistant Interfacial Layer for Safe Lithium Metal Batteries.
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- Angewandte Chemie, 2021, v. 133, n. 48, p. 25712, doi. 10.1002/ange.202111199
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Cobalt‐Phthalocyanine‐Derived Molecular Isolation Layer for Highly Stable Lithium Anode.
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- Angewandte Chemie, 2021, v. 133, n. 36, p. 20005, doi. 10.1002/ange.202106027
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Innentitelbild: Enabling Lithium Metal Anode in Nonflammable Phosphate Electrolyte with Electrochemically Induced Chemical Reactions (Angew. Chem. 35/2021).
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- Angewandte Chemie, 2021, v. 133, n. 35, p. 19042, doi. 10.1002/ange.202107802
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Enabling Lithium Metal Anode in Nonflammable Phosphate Electrolyte with Electrochemically Induced Chemical Reactions.
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- Angewandte Chemie, 2021, v. 133, n. 35, p. 19332, doi. 10.1002/ange.202103909
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Optimization of Magnesium‐Doped Lithium Metal Anode for High Performance Lithium Metal Batteries through Modeling and Experiment.
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- Angewandte Chemie, 2021, v. 133, n. 30, p. 16642, doi. 10.1002/ange.202103344
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The Boundary of Lithium Plating in Graphite Electrode for Safe Lithium‐Ion Batteries.
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- Angewandte Chemie, 2021, v. 133, n. 23, p. 13117, doi. 10.1002/ange.202102593
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Li‐Rich Li<sub>2</sub>[Ni<sub>0.8</sub>Co<sub>0.1</sub>Mn<sub>0.1</sub>]O<sub>2</sub> for Anode‐Free Lithium Metal Batteries.
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- Angewandte Chemie, 2021, v. 133, n. 15, p. 8370, doi. 10.1002/ange.202017063
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Insights into the Capacity and Rate Performance of Transition‐Metal Coordination Compounds for Reversible Lithium Storage.
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- Angewandte Chemie, 2021, v. 133, n. 8, p. 4188, doi. 10.1002/ange.202013912
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Identifying the Critical Anion–Cation Coordination to Regulate the Electric Double Layer for an Efficient Lithium‐Metal Anode Interface.
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- Angewandte Chemie, 2021, v. 133, n. 8, p. 4261, doi. 10.1002/ange.202013271
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Enzyme‐Inspired Room‐Temperature Lithium–Oxygen Chemistry via Reversible Cleavage and Formation of Dioxygen Bonds.
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- Angewandte Chemie, 2020, v. 132, n. 41, p. 18012, doi. 10.1002/ange.202009792
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The Stabilization Effect of CO<sub>2</sub> in Lithium–Oxygen/CO<sub>2</sub> Batteries.
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- Angewandte Chemie, 2020, v. 132, n. 38, p. 16804, doi. 10.1002/ange.202006303
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Double‐Shelled C@MoS<sub>2</sub> Structures Preloaded with Sulfur: An Additive Reservoir for Stable Lithium Metal Anodes.
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- Angewandte Chemie, 2020, v. 132, n. 37, p. 15973, doi. 10.1002/ange.202001989
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Cycling a Lithium Metal Anode at 90 °C in a Liquid Electrolyte.
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- Angewandte Chemie, 2020, v. 132, n. 35, p. 15221, doi. 10.1002/ange.202002711
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A Highly Efficient All‐Solid‐State Lithium/Electrolyte Interface Induced by an Energetic Reaction.
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- Angewandte Chemie, 2020, v. 132, n. 33, p. 14107, doi. 10.1002/ange.202004477
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A Two‐Dimensional Mesoporous Polypyrrole–Graphene Oxide Heterostructure as a Dual‐Functional Ion Redistributor for Dendrite‐Free Lithium Metal Anodes.
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- Angewandte Chemie, 2020, v. 132, n. 29, p. 12245, doi. 10.1002/ange.202004284
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A Nano‐shield Design for Separators to Resist Dendrite Formation in Lithium‐Metal Batteries.
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- Angewandte Chemie, 2020, v. 132, n. 16, p. 6623, doi. 10.1002/ange.201915440
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Normalized Lithium Growth from the Nucleation Stage for Dendrite‐Free Lithium Metal Anodes.
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- Angewandte Chemie, 2019, v. 131, n. 50, p. 18414, doi. 10.1002/ange.201911267
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Protecting the Lithium Metal Anode for a Safe Flexible Lithium‐Air Battery in Ambient Air.
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- Angewandte Chemie, 2019, v. 131, n. 50, p. 18408, doi. 10.1002/ange.201911229
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Lithium‐Salt Mediated Synthesis of a Covalent Triazine Framework for Highly Stable Lithium Metal Batteries.
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- Angewandte Chemie, 2019, v. 131, n. 47, p. 16951, doi. 10.1002/ange.201908513
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Biological Nicotinamide Cofactor as a Redox‐Active Motif for Reversible Electrochemical Energy Storage.
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- Angewandte Chemie, 2019, v. 131, n. 47, p. 16920, doi. 10.1002/ange.201906844
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Highly Stable Lithium Metal Anode Interface via Molecular Layer Deposition Zircone Coatings for Long Life Next‐Generation Battery Systems.
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- Angewandte Chemie, 2019, v. 131, n. 44, p. 15944, doi. 10.1002/ange.201907759
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4.5 V High‐Voltage Rechargeable Batteries Enabled by the Reduction of Polarization on the Lithium Metal Anode.
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- Angewandte Chemie, 2019, v. 131, n. 43, p. 15379, doi. 10.1002/ange.201908874
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Facile Generation of Polymer–Alloy Hybrid Layers for Dendrite‐Free Lithium‐Metal Anodes with Improved Moisture Stability.
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- Angewandte Chemie, 2019, v. 131, n. 33, p. 11496, doi. 10.1002/ange.201905712
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Temperature‐Dependent Nucleation and Growth of Dendrite‐Free Lithium Metal Anodes.
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- Angewandte Chemie, 2019, v. 131, n. 33, p. 11486, doi. 10.1002/ange.201905251
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Ex situ and operando study of LiCoO<sub>2</sub> thin films by Raman spectroscopy: Thermal and electrochemical properties.
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- Journal of Raman Spectroscopy, 2019, v. 50, n. 10, p. 1594, doi. 10.1002/jrs.5669
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Computer Study of Silicene Applicability in Electrochemical Devices.
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- Journal of Structural Chemistry, 2020, v. 61, n. 4, p. 659, doi. 10.1134/S0022476620040204
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Solid Electrolytes in the N-Propyl-N-methyl-pyrrolidinium Tetrafluoroborate—Lithium Tetrafluoroborate System.
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- Batteries, 2023, v. 9, n. 3, p. 167, doi. 10.3390/batteries9030167
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Lithium Silicates in Anode Materials for Li-Ion and Li Metal Batteries.
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- Batteries, 2022, v. 8, n. 1, p. 2, doi. 10.3390/batteries8010002
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Influence of Temperature and Electrolyte Composition on the Performance of Lithium Metal Anodes.
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- Batteries, 2021, v. 7, n. 4, p. 1, doi. 10.3390/batteries7040067
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The Comparison of Intercalation of Na and Li Atoms in Nanostructured SnS<sub>2</sub> Anode of Battery: ab initio Calculation.
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- Nanosistemi, Nanomateriali, Nanotehnologii, 2021, v. 19, n. 2, p. 273
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Uniform Lithium Deposition Induced by Double Lithiophobic Sandwich Structure for Stable Lithium Metal Anode.
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- Advanced Materials Interfaces, 2022, v. 9, n. 11, p. 1, doi. 10.1002/admi.202200011
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A Facile Surface Passivation Method to Stabilized Lithium Metal Anodes Facilitate the Practical Application of Quasi‐Solid‐State Batteries.
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- Advanced Materials Interfaces, 2022, v. 9, n. 11, p. 1, doi. 10.1002/admi.202102283
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In Situ Ion‐Conducting Protective Layer Strategy to Stable Lithium Metal Anode for All‐Solid‐State Sulfide‐Based Lithium Metal Batteries.
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- Advanced Materials Interfaces, 2021, v. 8, n. 1, p. 1, doi. 10.1002/admi.202001698
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2H‐MoS<sub>2</sub> as an Artificial Solid Electrolyte Interface in All‐Solid‐State Lithium–Sulfur Batteries.
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- Advanced Materials Interfaces, 2020, v. 7, n. 20, p. 1, doi. 10.1002/admi.202001020
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Sb Anodes: Fabrication of Multilayer Si/TiN/Sb NR Arrays as Anode for 3D Si‐Based Lithium/Sodium Ion Microbatteries (Adv. Mater. Interfaces 19/2020).
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- Advanced Materials Interfaces, 2020, v. 7, n. 19, p. 1, doi. 10.1002/admi.202070109
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Fabrication of Multilayer Si/TiN/Sb NR Arrays as Anode for 3D Si‐Based Lithium/Sodium Ion Microbatteries.
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- Advanced Materials Interfaces, 2020, v. 7, n. 19, p. 1, doi. 10.1002/admi.202001043
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A New Strategy of Constructing a Highly Fluorinated Solid‐Electrolyte Interface towards High‐Performance Lithium Anode.
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- Advanced Materials Interfaces, 2020, v. 7, n. 11, p. 1, doi. 10.1002/admi.202000154
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Hall of Fame Article: Structure‐Controlled Li Metal Electrodes for Post‐Li‐Ion Batteries: Recent Progress and Perspectives (Adv. Mater. Interfaces 8/2020).
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- Advanced Materials Interfaces, 2020, v. 7, n. 8, p. 1, doi. 10.1002/admi.202070040
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Chemically Bonded Sn Nanoparticles Using the Crosslinked Epoxy Binder for High Energy-Density Li Ion Battery.
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- Advanced Materials Interfaces, 2016, v. 3, n. 23, p. n/a, doi. 10.1002/admi.201600662
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Improvement of Lithium Storage Performance of Molybdenum Trioxide by a Synergistic Effect of Surface Coating and Oxygen Vacancies.
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- Advanced Materials Interfaces, 2016, v. 3, n. 22, p. n/a, doi. 10.1002/admi.201600730
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Titanium Dioxide/Lithium Phosphate Nanocomposite Derived from Atomic Layer Deposition as a High-Performance Anode for Lithium Ion Batteries.
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- Advanced Materials Interfaces, 2016, v. 3, n. 21, p. n/a, doi. 10.1002/admi.201600369
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Molecular Layer Deposition for Surface Modification of Lithium-Ion Battery Electrodes.
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- Advanced Materials Interfaces, 2016, v. 3, n. 21, p. n/a, doi. 10.1002/admi.201600762
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ALD Protection of Li-Metal Anode Surfaces - Quantifying and Preventing Chemical and Electrochemical Corrosion in Organic Solvent.
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- Advanced Materials Interfaces, 2016, v. 3, n. 21, p. n/a, doi. 10.1002/admi.201600426
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