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![Correction to](/sites/all/modules/islandora_solr_search/images/defaultimg.png)
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Correction to: Origin of fast charging in hard carbon anodes (Nature Energy, (2024), 9, 2, (134-142), 10.1038/s41560-023-01414-5)
![Origin of fast charging in hard carbon anodes](/sites/all/modules/islandora_solr_search/images/defaultimg.png)
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Origin of fast charging in hard carbon anodes
![The lasting impact of formation cycling on the Li-ion kinetics between SEI and the Li-metal anode and its correlation with efficiency](/islandora/object/uuid:e661bc93-dba4-4b65-a1bf-c9ae79081bec/datastream/TN/view)
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The lasting impact of formation cycling on the Li-ion kinetics between SEI and the Li-metal anode and its correlation with efficiency
![Chemical short-range disorder in lithium oxide cathodes](/sites/all/modules/islandora_solr_search/images/defaultimg.png)
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Chemical short-range disorder in lithium oxide cathodes
![Role of Defects, Pores, and Interfaces in Deciphering the Alkali Metal Storage Mechanism in Hard Carbon](/islandora/object/uuid:90f16a03-5856-48f3-8e8a-433d7e3a0916/datastream/TN/view)
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Role of Defects, Pores, and Interfaces in Deciphering the Alkali Metal Storage Mechanism in Hard Carbon
![Author Correction](/islandora/object/uuid:5c51ff10-45c3-4235-9d2a-59da0a02e967/datastream/TN/view)
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Author Correction: Quantification of the Li-ion diffusion over an interface coating in all-solid-state batteries via NMR measurements (Nature Communications, (2021), 12, 1, (5943), 10.1038/s41467-021-26190-2)
![Reviving the rock-salt phases in Ni-rich layered cathodes by mechano-electrochemistry in all-solid-state batteries](/islandora/object/uuid:8bc48e89-d9a9-4024-b4cb-01c0982e70e7/datastream/TN/view)
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Reviving the rock-salt phases in Ni-rich layered cathodes by mechano-electrochemistry in all-solid-state batteries
![Re-investigating the structure-property relationship of the solid electrolytes Li <sub>3−x</sub>In<sub>1−x</sub>Zr<sub>x</sub>Cl<sub>6</sub> and the impact of In-Zr(iv) substitution](/islandora/object/uuid:0ca020be-7f7f-4cd8-baef-4dc5786cb883/datastream/TN/view)
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Re-investigating the structure-property relationship of the solid electrolytes Li 3−xIn1−xZrxCl6 and the impact of In-Zr(iv) substitution
![Clarifying the Relationship between the Lithium Deposition Coverage and Microstructure in Lithium Metal Batteries](/islandora/object/uuid:d1d67ddc-687e-4481-a804-ebb01b466c16/datastream/TN/view)
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Clarifying the Relationship between the Lithium Deposition Coverage and Microstructure in Lithium Metal Batteries
![A Series of Ternary Metal Chloride Superionic Conductors for High-Performance All-Solid-State Lithium Batteries](/islandora/object/uuid:0817df44-5800-4f89-ad86-8b1a9b72b419/datastream/TN/view)
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A Series of Ternary Metal Chloride Superionic Conductors for High-Performance All-Solid-State Lithium Batteries
![Quantification of the Li-ion diffusion over an interface coating in all-solid-state batteries via NMR measurements](/islandora/object/uuid:90caa250-478c-43d3-a1b5-dea587f8d6c0/datastream/TN/view)
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Quantification of the Li-ion diffusion over an interface coating in all-solid-state batteries via NMR measurements
![Revealing High Na-Content P2-Type Layered Oxides as Advanced Sodium-Ion Cathodes](/islandora/object/uuid:956cb21d-d1dc-4446-a7c3-9037a8cea914/datastream/TN/view)
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Revealing High Na-Content P2-Type Layered Oxides as Advanced Sodium-Ion Cathodes
![Revealing the Impact of Space-Charge Layers on the Li-Ion Transport in All-Solid-State Batteries](/islandora/object/uuid:9c48a6a8-5615-4848-8799-738a84baca07/datastream/TN/view)
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Revealing the Impact of Space-Charge Layers on the Li-Ion Transport in All-Solid-State Batteries
![Hollow MoS<sub>3</sub> Nanospheres as Electrode Material for “Water-in-Salt” Li–Ion Batteries](/islandora/object/uuid:78da7563-7d02-4125-a3c1-4b1e32a045e0/datastream/TN/view)
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Hollow MoS3 Nanospheres as Electrode Material for “Water-in-Salt” Li–Ion Batteries
![Fe2O3 Nanoparticle Seed Catalysts Enhance Cyclability on Deep (Dis)charge in Aprotic Li-O2 Batteries](/islandora/object/uuid:288228e1-725c-4c6e-aced-16a7d1aaf087/datastream/TN/view)
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Fe2O3 Nanoparticle Seed Catalysts Enhance Cyclability on Deep (Dis)charge in Aprotic Li-O2 Batteries
![Operando monitoring the lithium spatial distribution of lithium metal anodes](/islandora/object/uuid:b445a0eb-9076-4f74-a733-5b21cda4c684/datastream/TN/view)
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Operando monitoring the lithium spatial distribution of lithium metal anodes
![Accessing the bottleneck in all-solid state batteries, lithium-ion transport over the solid-electrolyte-electrode interface](/islandora/object/uuid:573f2a72-1ef1-4831-a3b5-979d71e55abe/datastream/TN/view)
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Accessing the bottleneck in all-solid state batteries, lithium-ion transport over the solid-electrolyte-electrode interface
![High-Density Microporous Li<sub>4</sub>Ti<sub>5</sub>O<sub>12</sub> Microbars with Superior Rate Performance for Lithium-Ion Batteries](/islandora/object/uuid:cf0113e3-b540-45d1-9968-f358a0224e1c/datastream/TN/view)
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High-Density Microporous Li4Ti5O12 Microbars with Superior Rate Performance for Lithium-Ion Batteries
![Understanding the Electrochemical Formation and Decomposition of Li2O2 and LiOH with Operando X-ray Diffraction](/islandora/object/uuid:012c54d8-5756-426c-aec7-ad0dd450986f/datastream/TN/view)
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Understanding the Electrochemical Formation and Decomposition of Li2O2 and LiOH with Operando X-ray Diffraction
![A Facile Surface Reconstruction Mechanism toward Better Electrochemical Performance of Li<sub>4</sub>Ti<sub>5</sub>O<sub>12</sub> in Lithium-Ion Battery](/islandora/object/uuid:71615cd8-8954-431f-8b3c-b145029efcd1/datastream/TN/view)
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A Facile Surface Reconstruction Mechanism toward Better Electrochemical Performance of Li4Ti5O12 in Lithium-Ion Battery