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Strategies of Enhancing Ionic Conductivity in Model Solid‐State Electrolyte Li<sub>15</sub>P<sub>4</sub>S<sub>16</sub>Cl<sub>3</sub>.
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- Small Structures, 2024, v. 5, n. 7, p. 1, doi. 10.1002/sstr.202300565
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- Article
Low‐Volatile Binder Enables Thermal Shock‐Resistant Thin‐Film Cathodes for Thermal Batteries.
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- Energy & Environmental Materials, 2024, v. 7, n. 4, p. 1, doi. 10.1002/eem2.12677
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- Article
In Situ Directional Polymerization of Poly(1,3‐dioxolane) Solid Electrolyte Induced by Cellulose Paper‐Based Composite Separator for Lithium Metal Batteries.
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- Energy & Environmental Materials, 2023, v. 6, n. 3, p. 1, doi. 10.1002/eem2.12370
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Configurational and Dynamical Heterogeneity in Superionic Li<sub>5.3</sub>PS<sub>4.3</sub>Cl<sub>1.7−</sub><sub>x</sub>Br<sub>x</sub>.
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- Advanced Functional Materials, 2023, v. 33, n. 51, p. 1, doi. 10.1002/adfm.202307954
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- Article
Studies of Functional Defects for Fast Na‐Ion Conduction in Na<sub>3−</sub><sub>y</sub>PS<sub>4−</sub><sub>x</sub>Cl<sub>x</sub> with a Combined Experimental and Computational Approach.
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- Advanced Functional Materials, 2019, v. 29, n. 5, p. 1, doi. 10.1002/adfm.201807951
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- Article
Additive Strategy Enhancing In Situ Polymerization Uniformity for High‐Voltage Sodium Metal Batteries.
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- Small, 2024, v. 20, n. 5, p. 1, doi. 10.1002/smll.202305649
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- Article
Layered Molybdenum (Oxy) Pyrophosphate (MoO<sub>2</sub>)<sub>2</sub>P<sub>2</sub>O<sub>7</sub> as a Cathode Material for Sodium‐Ion Batteries.
- Published in:
- ChemElectroChem, 2018, v. 5, n. 8, p. 1032, doi. 10.1002/celc.201800005
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- Article
Layered Molybdenum (Oxy) Pyrophosphate (MoO<sub>2</sub>)<sub>2</sub>P<sub>2</sub>O<sub>7</sub> as a Cathode Material for Sodium‐Ion Batteries.
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- ChemElectroChem, 2018, v. 5, n. 7, p. 1032, doi. 10.1002/celc.201800005
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- Article
Stacking‐Fault Enhanced Oxygen Redox in Li<sub>2</sub>MnO<sub>3</sub>.
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- Advanced Energy Materials, 2022, v. 12, n. 18, p. 1, doi. 10.1002/aenm.202200427
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- Article
Heavily Tungsten‐Doped Sodium Thioantimonate Solid‐State Electrolytes with Exceptionally Low Activation Energy for Ionic Diffusion.
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- Angewandte Chemie, 2021, v. 133, n. 50, p. 26362, doi. 10.1002/ange.202110699
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- Article
Heavily Tungsten‐Doped Sodium Thioantimonate Solid‐State Electrolytes with Exceptionally Low Activation Energy for Ionic Diffusion.
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- Angewandte Chemie International Edition, 2021, v. 60, n. 50, p. 26158, doi. 10.1002/anie.202110699
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- Article
A Novel Protective Strategy on High‐Voltage LiCoO<sub>2</sub> Cathode for Fast Charging Applications: Li<sub>1.6</sub>Mg<sub>1.6</sub>Sn<sub>2.8</sub>O<sub>8</sub> Double Layer Structure via SnO<sub>2</sub> Surface Modification.
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- Small Methods, 2019, v. 3, n. 11, p. N.PAG, doi. 10.1002/smtd.201900355
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LaCl<sub>3</sub>-based sodium halide solid electrolytes with high ionic conductivity for all-solid-state batteries.
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- Nature Communications, 2024, v. 15, n. 1, p. 1, doi. 10.1038/s41467-024-48712-4
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Potassium Metal Batteries: Stable Potassium Metal Anodes with an All‐Aluminum Current Collector through Improved Electrolyte Wetting (Adv. Mater. 49/2020).
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- Advanced Materials, 2020, v. 32, n. 49, p. 1, doi. 10.1002/adma.202070365
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- Article
Stable Potassium Metal Anodes with an All‐Aluminum Current Collector through Improved Electrolyte Wetting.
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- Advanced Materials, 2020, v. 32, n. 49, p. 1, doi. 10.1002/adma.202002908
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- Article
Two-Step Solid State Synthesis of Medium Entropy LiNi 0.5 Mn 1.5 O 4 Cathode with Enhanced Electrochemical Performance.
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- Batteries, 2023, v. 9, n. 2, p. 91, doi. 10.3390/batteries9020091
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Strengthening of Gadolinia-Doped Ceria (Ce<sub>0.80</sub>Gd<sub>0.20</sub>O<sub>2-δ</sub>) Thick Ceramic Membranes with Co-Doping of 1 mol% CuO.
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- International Journal of Applied Ceramic Technology, 2015, v. 12, n. 5, p. 1027, doi. 10.1111/ijac.12311
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- Article