Journal ArticleDOI
Amorphous silicon as a possible anode material for Li-ion batteries
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TLDR
In this paper, thin amorphous silicon thin films have been deposited on porous nickel substrates by low pressure chemical vapor deposition using silane as the precursor gas, and the films were electrochemically cycled vs. a lithium electrode.About:
This article is published in Journal of Power Sources.The article was published on 1999-09-01. It has received 410 citations till now. The article focuses on the topics: Nanocrystalline silicon & Amorphous silicon.read more
Citations
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Rechargeable lithium-sulfur batteries.
Journal ArticleDOI
Nano- and bulk-silicon-based insertion anodes for lithium-ion secondary cells
TL;DR: In this paper, a review of methodologies adopted for reducing the capacity fade observed in silicon-based anodes, discuss the challenges that remain in using silicon and siliconbased anode, and propose possible approaches for overcoming them.
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Alloy negative electrodes for Li-ion batteries.
Mark N. Obrovac,Vincent Chevrier +1 more
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Silicon based lithium-ion battery anodes: A chronicle perspective review
TL;DR: In this paper, the evolution of the concept, fundamental scientific and technology development of the silicon LIB anode are clearly presented, and the future trend of the Si-based anode research is shed light on the future trends.
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Advances and challenges for flexible energy storage and conversion devices and systems
TL;DR: In this article, an overview of the remarkable contributions made by the leading scientists in this important and promising research area is given, and some perspectives for the future and impacts of flexible energy storage and conversion systems are also proposed.
References
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Journal ArticleDOI
Tin-Based Amorphous Oxide: A High-Capacity Lithium-Ion-Storage Material
TL;DR: A tin-based amorphous composite oxide (TCO) was synthesized in this paper to replace the carbon-based lithium intercalation materials currently in extensive use as the negative electrode (anode) of lithium-ion rechargeable batteries.
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Electrochemical and In Situ X‐Ray Diffraction Studies of the Reaction of Lithium with Tin Oxide Composites
Ian A. Courtney,J. R. Dahn +1 more
TL;DR: In this article, an electrochemical and in situ x-ray diffraction experiments on a variety of tin oxide based compounds; SnO,,,, and glass, as cathodes opposite lithium metal in a rechargeable Li-ion coin cell were conducted.
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Key Factors Controlling the Reversibility of the Reaction of Lithium with SnO2 and Sn2 BPO 6 Glass
Ian A. Courtney,J. R. Dahn +1 more
TL;DR: In this paper, the authors identify the factors responsible for good charge-discharge capacity retention in Li-ion cells, using results of experiments on Li/Sn{sub 2}BPO{sub 6} and Li/snO{ sub 2} cells.
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Small particle size multiphase Li-alloy anodes for lithium-ionbatteries
TL;DR: In this paper, an impressive improvement of the cycling performance of Li-alloy anodes in rechargeable organic electrolyte lithium batteries can be achieved by replacing compact or large particle size metallic host matrices M (e.g. Sn or Sb) with small particle size (micro- or nano-scale) multiphase metallic host materials like SnSnSbn or SnSnAgn.
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Thin‐Film Crystalline SnO2‐Lithium Electrodes
TL;DR: In this paper, the authors investigated the reversible capacity of thin-film negative electrodes for lithium-ion batteries and found that the substantial irreversibility during the first cycle can be explained by the formation of metallic tin and amorphous lithium oxide.
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Nano- and bulk-silicon-based insertion anodes for lithium-ion secondary cells
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Mark N. Obrovac,Leif Christensen +1 more