Journal ArticleDOI
A high-performance sodium-ion battery enhanced by macadamia shell derived hard carbon anode
TLDR
In this paper, the authors introduce a sodium-matched SIB full-cell architecture, with newly developed hard carbon derived from macadamia shell (MHC) as anode and Na [ Cu 1 / 9 Ni 2 / 9 Fe 1 / 3 Mn 1/3 ] O 2 (NCNFM) as the cathode material, with anode/cathode areal capacity ratio of 1.02-1.04.About:
This article is published in Nano Energy.The article was published on 2017-09-01. It has received 157 citations till now. The article focuses on the topics: Anode & Sodium-ion battery.read more
Citations
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Rational design and kinetics study of flexible sodium-ion full batteries based on binder-free composite film electrodes
TL;DR: In this paper, a flexible sodium-ion full battery (FSIFB) was developed by using binder-free composite film (BFCF) electrodes without using conductive carbon and current collectors.
Journal ArticleDOI
Reversible Copper Sulfide Conversion in Nonflammable Trimethyl Phosphate Electrolytes for Safe Sodium-Ion Batteries
Huihua Li,Huang Zhang,Thomas Diemant,R. Jürgen Behm,Dorin Geiger,Ute Kaiser,Alberto Varzi,Stefano Passerini +7 more
Journal ArticleDOI
Activated Carbon from E-Waste Plastics as a Promising Anode for Sodium-Ion Batteries
Uttam Kumar,Damian Goonetilleke,Vaibhav Gaikwad,James C. Pramudita,Rakesh Joshi,Neeraj Sharma,Veena Sahajwalla +6 more
TL;DR: In this article, the authors demonstrate that activated carbon derived from end-of-life printer plastics can act as high capacity anode materials for sodium-ion batteries and demonstrate that these carbons exhibited superior rate capability and delivered capacities as high as 190 mAh/g at 3 mA/g after 25 cycles.
Journal ArticleDOI
Optimal annealing of Al foil anode for prelithiation and full-cell cycling in Li-ion battery: the role of grain boundaries in lithiation/delithiation ductility
TL;DR: In this article, a facile and efficient mechanical prelithiation (MP) approach was developed for mass production of self-supporting Al foil anode for Li-ion batteries, which achieved 80% capacity retention after 100 cycles in LiFePO4/LiAly full cell with 1.8
Journal ArticleDOI
Hard carbons derived from waste tea bag powder as anodes for sodium ion battery
TL;DR: In recent years, biomass-based hard carbons have become main interest in the sodium battery research community because of their abundant availability, cheap and excellent electrochemical performance as discussed by the authors. But their performance has not yet reached the state-of-the-art.
References
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Journal ArticleDOI
Building better batteries
TL;DR: Researchers must find a sustainable way of providing the power their modern lifestyles demand to ensure the continued existence of clean energy sources.
Journal ArticleDOI
Research Development on Sodium-Ion Batteries
Naoaki Yabuuchi,Kei Kubota,Kei Kubota,Mouad Dahbi,Mouad Dahbi,Shinichi Komaba,Shinichi Komaba +6 more
Journal ArticleDOI
Sodium ion insertion in hollow carbon nanowires for battery applications.
Yuliang Cao,Lifen Xiao,Lifen Xiao,Maria L. Sushko,Wei Wang,Birgit Schwenzer,Jie Xiao,Zimin Nie,Laxmikant V. Saraf,Zhengguo Yang,Jun Liu +10 more
TL;DR: Hollow carbon nanowires prepared through pyrolyzation of a hollow polyaniline nanowire precursor deliver high reversible capacity and excellent cycling stability and the good Na-ion insertion property is attributed to the short diffusion distance in the HCNWs and the large interlayer distance.
Journal ArticleDOI
Expanded graphite as superior anode for sodium-ion batteries
Yang Wen,Kai He,Yujie Zhu,Fudong Han,Yunhua Xu,Isamu Matsuda,Yoshitaka Ishii,John Cumings,Chunsheng Wang +8 more
TL;DR: Expanded graphite is reported as a Na-ion battery anode, prepared through a process of oxidation and partial reduction on graphite, which has an enlarged interlayer lattice distance yet retains an analogous long-range-ordered layered structure to graphite.
Journal ArticleDOI
High Capacity Anode Materials for Rechargeable Sodium‐Ion Batteries
David Stevens,J. R. Dahn +1 more
TL;DR: In this article, the authors compare the results with those for lithium insertion in graphitic carbon anode materials and demonstrate the presence of similar alkali metal insertion mechanisms in both cases.