Mechanism of Sodium Storage in Hard Carbon: An X‐Ray Scattering Analysis

Hard carbons for sodium-ion batteries: Structure, analysis, sustainability, and electrochemistry

(2019) Xinwei Dou et al.   Materials Today

Revealing sodium ion storage mechanism in hard carbon

(2019) Stevanus Alvin et al.   CARBON

Correlation of carbonization condition with metallic property of sodium clusters formed in hard carbon studied using 23Na nuclear magnetic resonance

(2019) Ryohei Morita et al.   CARBON

Extended “Adsorption–Insertion” Model: A New Insight into the Sodium Storage Mechanism of Hard Carbons

(2019) Ning Sun et al.   Advanced Energy Materials

Hard carbons issued from date palm as efficient anode materials for sodium-ion batteries

(2018) Ilyasse Izanzar et al.   CARBON

Commercial activated carbon as a novel precursor of the amorphous carbon for high-performance sodium-ion batteries anode

(2018) Qi Li et al.   CARBON

Towards an atomistic understanding of disordered carbon electrode materials

(2018) Volker L. Deringer et al.   CHEMICAL COMMUNICATIONS

First-principles calculations on lithium and sodium adsorption on graphene edges

(2018) Junyu Jiao et al.   ELECTROCHIMICA ACTA

High capacity hard carbon derived from lotus stem as anode for sodium ion batteries

(2018) Nan Zhang et al.   JOURNAL OF POWER SOURCES

Sodium-ion batteries: New opportunities beyond energy storage by lithium

(2018) Ali Eftekhari et al.   JOURNAL OF POWER SOURCES

From Charge Storage Mechanism to Performance: A Roadmap toward High Specific Energy Sodium-Ion Batteries through Carbon Anode Optimization

(2018) Damien Saurel et al.   Advanced Energy Materials

Low-Defect and Low-Porosity Hard Carbon with High Coulombic Efficiency and High Capacity for Practical Sodium Ion Battery Anode

(2018) Lifen Xiao et al.   Advanced Energy Materials

Elucidation of the Sodium-Storage Mechanism in Hard Carbons

(2018) Panxing Bai et al.   Advanced Energy Materials

Exploring Sodium-Ion Storage Mechanism in Hard Carbons with Different Microstructure Prepared by Ball-Milling Method

(2018) Haiyan Lu et al.   Small

High Capacity and High Efficiency Maple Tree-Biomass-Derived Hard Carbon as an Anode Material for Sodium-Ion Batteries

(2018) Yuesheng Wang et al.   Materials

Synthesizing higher-capacity hard-carbons from cellulose for Na- and K-ion batteries

(2018) Hijiri Yamamoto et al.   Journal of Materials Chemistry A

High-Performance Sodium-Ion Batteries Based on Nitrogen-Doped Mesoporous Carbon Spheres with Ultrathin Nanosheets

(2018) Xiongwei Zhong et al.   ACS Applied Materials & Interfaces

Electrochemical Properties and Theoretical Capacity for Sodium Storage in Hard Carbon: Insights from First Principles Calculations

(2018) Clement Bommier et al.   CHEMISTRY OF MATERIALS

Hard Carbon as Sodium-Ion Battery Anodes: Progress and Challenges

(2018) Biwei Xiao et al.   ChemSusChem

Insight into Sodium Insertion and the Storage Mechanism in Hard Carbon

(2018) M. Anji Reddy et al.   ACS Energy Letters

Manipulating Adsorption-Insertion Mechanisms in Nanostructured Carbon Materials for High-Efficiency Sodium Ion Storage

(2017) Shen Qiu et al.   Advanced Energy Materials

Synthesis of hard carbon from argan shells for Na-ion batteries

(2017) Mouad Dahbi et al.   Journal of Materials Chemistry A

A high-performance sodium-ion battery enhanced by macadamia shell derived hard carbon anode

(2017) Yuheng Zheng et al.   Nano Energy

Mechanistic insights into sodium storage in hard carbon anodes using local structure probes

(2016) Joshua M. Stratford et al.   CHEMICAL COMMUNICATIONS

Studies on electrochemical sodium storage into hard carbons with binder-free monolithic electrodes

(2016) George Hasegawa et al.   JOURNAL OF POWER SOURCES

Sodium adsorption and intercalation in bilayer graphene from density functional theory calculations

(2016) Shaobin Yang et al.   THEORETICAL CHEMISTRY ACCOUNTS

Hard carbon derived from cellulose as anode for sodium ion batteries: Dependence of electrochemical properties on structure

(2016) V. Simone et al.   Journal of Energy Chemistry

Effect of Hexafluorophosphate and Fluoroethylene Carbonate on Electrochemical Performance and the Surface Layer of Hard Carbon for Sodium-Ion Batteries

(2016) Mouad Dahbi et al.   ChemElectroChem

Sodium-Ion Storage in Pyroprotein-Based Carbon Nanoplates

(2015) Young Soo Yun et al.   ADVANCED MATERIALS

Review—Practical Issues and Future Perspective for Na-Ion Batteries

(2015) Kei Kubota et al.   JOURNAL OF THE ELECTROCHEMICAL SOCIETY

New Mechanistic Insights on Na-Ion Storage in Nongraphitizable Carbon

(2015) Clement Bommier et al.   NANO LETTERS

Correlation Between Microstructure and Na Storage Behavior in Hard Carbon

(2015) Biao Zhang et al.   Advanced Energy Materials

Correlations between electrochemical Na+ storage properties and physiochemical characteristics of holey graphene nanosheets

(2015) Xu-Feng Luo et al.   Journal of Materials Chemistry A

Ab initio study of sodium intercalation into disordered carbon

(2015) Ping-chun Tsai et al.   Journal of Materials Chemistry A

Hard Carbon Anodes for Na-Ion Batteries: Toward a Practical Use

(2015) George Hasegawa et al.   ChemElectroChem

Towards greener and more sustainable batteries for electrical energy storage

(2014) D. Larcher et al.   Nature Chemistry

Negative electrodes for Na-ion batteries

(2014) Mouad Dahbi et al.   PHYSICAL CHEMISTRY CHEMICAL PHYSICS

Carbon Nanosheet Frameworks Derived from Peat Moss as High Performance Sodium Ion Battery Anodes

(2013) Jia Ding et al.   ACS Nano

Charge carriers in rechargeable batteries: Na ions vs. Li ions

(2013) Sung You Hong et al.   Energy & Environmental Science

Sodium Ion Insertion in Hollow Carbon Nanowires for Battery Applications

(2012) Yuliang Cao et al.   NANO LETTERS

Electrochemical Na Insertion and Solid Electrolyte Interphase for Hard-Carbon Electrodes and Application to Na-Ion Batteries

(2011) Shinichi Komaba et al.   ADVANCED FUNCTIONAL MATERIALS

Electrical Energy Storage for the Grid: A Battery of Choices

(2011) B. Dunn et al.   SCIENCE