N-doped porous hard-carbon derived from recycled separators for efficient lithium-ion and sodium-ion batteries - Sustainable Energy & Fuels (RSC Publishing)
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Hard carbons for sodium-ion batteries: Structure, analysis, sustainability, and electrochemistry - ScienceDirect
Boosting the rate capability of hard carbon with an ether-based electrolyte for sodium ion batteries - Journal of Materials Chemistry A (RSC Publishing)
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Secondary Lithium-Ion Battery Anodes: From First Commercial Batteries to Recent Research Activities | Johnson Matthey Technology Review
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Micro-nano structure hard carbon as a high performance anode material for sodium-ion batteries | Scientific Reports
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Hard Carbon as Sodium‐Ion Battery Anodes: Progress and Challenges - Xiao - 2019 - ChemSusChem - Wiley Online Library
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Hard carbon derived from cellulose as anode for sodium ion batteries: Dependence of electrochemical properties on structure - ScienceDirect
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Schematic representations of graphite, soft carbon, and hard carbon... | Download Scientific Diagram
Comparison of the voltage profiles of graphite, hard carbon, and soft... | Download Scientific Diagram
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Nanometer-size Na cluster formation in micropore of hard carbon as origin of higher-capacity Na-ion battery | npj Computational Materials
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Double-Coated Hard Carbon as an Anode Material for High C-Rate Lithium Ion Batteries | Scientific.Net
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KOH Activated Nitrogen Doped Hard Carbon Nanotubes as High Performance Anode for Lithium Ion Batteries | SpringerLink
Hard carbon: a promising lithium-ion battery anode for high temperature applications with ionic electrolyte - RSC Advances (RSC Publishing)
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Frontiers | Polyacrylonitrile Hard Carbon as Anode of High Rate Capability for Lithium Ion Batteries | Energy Research
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Storing charge in sodium-ion batteries: Study supports “three-stage” model for hard carbon anodes - The American Ceramic Society
![Figure 13 | Electrode Materials for Sodium-Ion Batteries: Considerations on Crystal Structures and Sodium Storage Mechanisms | SpringerLink Figure 13 | Electrode Materials for Sodium-Ion Batteries: Considerations on Crystal Structures and Sodium Storage Mechanisms | SpringerLink](https://media.springernature.com/full/springer-static/image/art%3A10.1007%2Fs41918-018-0009-9/MediaObjects/41918_2018_9_Fig13_HTML.png)
Figure 13 | Electrode Materials for Sodium-Ion Batteries: Considerations on Crystal Structures and Sodium Storage Mechanisms | SpringerLink
Mechanisms for overcharging of carbon electrodes in lithium-ion/sodium-ion batteries analysed by operando solid-state NMR - Journal of Materials Chemistry A (RSC Publishing)
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Frontiers | Polyacrylonitrile Hard Carbon as Anode of High Rate Capability for Lithium Ion Batteries | Energy Research
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