Journal ArticleDOI
Hard carbon derived from cellulose as anode for sodium ion batteries: Dependence of electrochemical properties on structure
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In this article, hard carbons (HC) prepared by cellulose pyrolysis were investigated with varying pyrolysisation temperature from 700°C to 1600°C, and different tests in Na//HC cells with NaPF6 ethylene carbonate/dimethyl carbonate (EC/DMC).About:
This article is published in Journal of Energy Chemistry.The article was published on 2016-09-01. It has received 157 citations till now. The article focuses on the topics: Ethylene carbonate & Sodium-ion battery.read more
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Sodium-Ion Battery Materials and Electrochemical Properties Reviewed
Kudakwashe Chayambuka,Grietus Mulder,DL Dmitry Danilov,DL Dmitry Danilov,Peter H. L. Notten,Peter H. L. Notten,Peter H. L. Notten +6 more
TL;DR: In this paper, a review of various innovative strategies used in material development, as well as the electrochemical properties of possible anode, cathode and electrolyte combinations are unravelled.
Journal ArticleDOI
Hard carbons for sodium-ion batteries: Structure, analysis, sustainability, and electrochemistry
Xinwei Dou,Ivana Hasa,Damien Saurel,Christoph Vaalma,Liming Wu,Daniel Buchholz,Dominic Bresser,Shinichi Komaba,Stefano Passerini +8 more
TL;DR: This review aims at providing a comprehensive overview of the up-to-date known structural models of hard carbons and their correlation with the proposed models for the sodium-ion storage mechanisms and a careful evaluation of potential strategies to ensure a high degree of sustainability.
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From Charge Storage Mechanism to Performance: A Roadmap toward High Specific Energy Sodium-Ion Batteries through Carbon Anode Optimization
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Na‐Ion Batteries for Large Scale Applications: A Review on Anode Materials and Solid Electrolyte Interphase Formation
Miguel Ángel Muñoz-Márquez,Damien Saurel,Juan Luis Gómez-Cámer,Montse Casas-Cabanas,Elizabeth Castillo-Martínez,Teófilo Rojo +5 more
TL;DR: In this article, a review of Na-based negative electrodes for large-scale battery applications is presented, along with the study of the solid electrolyte interphase formed in the anode surface, which is at the origin of most of the stability problems.
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Sodium-Ion Batteries Paving the Way for Grid Energy Storage
TL;DR: Hirsh, Hayley S; Li, Yixuan; Tan, Darren HS; Zhang, Minghao; Zhao, Enyue; Meng, Y Shirley as discussed by the authors.
References
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Journal ArticleDOI
Raman spectroscopy as a versatile tool for studying the properties of graphene
Andrea C. Ferrari,Denis M. Basko +1 more
TL;DR: The state of the art, future directions and open questions in Raman spectroscopy of graphene are reviewed, and essential physical processes whose importance has only recently been recognized are described.
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Sodium‐Ion Batteries
TL;DR: In this paper, the status of ambient temperature sodium ion batteries is reviewed in light of recent developments in anode, electrolyte and cathode materials, including high performance layered transition metal oxides and polyanionic compounds.
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A review of the features and analyses of the solid electrolyte interphase in Li-ion batteries
TL;DR: The solid electrolyte interphase (SEI) is a protecting layer formed on the negative electrode of Li-ion batteries as a result of electrolyte decomposition, mainly during the first cycle as discussed by the authors.
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The emerging chemistry of sodium ion batteries for electrochemical energy storage.
TL;DR: The Review considers some of the current scientific issues underpinning sodium ion batteries, including the discovery of new materials, their electrochemistry, and an increased understanding of ion mobility based on computational methods.
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Electrochemical Na Insertion and Solid Electrolyte Interphase for Hard-Carbon Electrodes and Application to Na-Ion Batteries
Shinichi Komaba,Wataru Murata,Toru Ishikawa,Naoaki Yabuuchi,Tomoaki Ozeki,Tetsuri Nakayama,Atsushi Ogata,Kazuma Gotoh,Kazuya Fujiwara +8 more
TL;DR: In this paper, a 3-volt secondary Na-ion battery possessing environmental and cost friendliness, Na+-shuttlecock hard-carbon/NaNi0.5Mn 0.5O2 cell, demonstrates steady cycling performance as next generation secondary batteries and an alternative to Li-ion batteries.