Book Chapter10.1007/978-981-10-3406-0_6
A graphene foam electrode with high sulfur loading for flexible and high energy Li-S batteries
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TL;DR: Li et al. as discussed by the authors proposed an effective strategy to obtain flexible Li-S battery electrodes with high energy density, high power density and long cyclic life by adopting graphene foam-based electrodes.
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About: This article is published in Nano Energy. The article was published on 01 Jan 2015. The article focuses on the topics: Graphene foam & Lithium cobalt oxide.
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Citations
All in one plasma process: From the preparation of S-C composite cathode to alleviation of polysulfide shuttle in Li-S batteries.
M. He,Haiping Zhou,Z.D. Zhang,Tingting Feng,Jian Yang,Ziqiang Xu,Shu Zhang,Liao Jiaxuan,M.Q. Wu +8 more
TL;DR: A simple, low-cost, and eco-friendly method for the one-step preparation of a binder-free S-C composite cathode by plasma dissociation of CS2 containing gases at room-temperature will open the way for the plasma applications in facile preparation of Li-S batteries and the improvement of its electrochemical performance.
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Titanium(III) Sulfide Nanoparticles Coated with Multicomponent Oxide (Ti-S-O) as a Conductive Polysulfide Scavenger for Lithium-Sulfur Batteries
TL;DR: In this article, the authors reported the preparation and application of a new additive material (titanium(III) sulfide (Ti2S3) nanoparticles covered with multicomponent (Ti-S-O) oxide (MO-TiS3), which can be synthesized on a large scale using an inductivelycoupled thermal plasma synthesis method followed by a simple surface oxidation treatment.
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Embedding SiO2 into graphene oxide in situ to generate 3D hierarchical porous graphene laminates for high performance lithium–sulfur batteries
TL;DR: In this article, hierarchical porous graphene laminates (GLs) with high surface area and porosity were synthesized through self-assembly of functionalized graphene oxide embedded with SiO2 in situ.
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References
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TL;DR: The energy that can be stored in Li-air and Li-S cells is compared with Li-ion; the operation of the cells is discussed, as are the significant hurdles that will have to be overcome if such batteries are to succeed.
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A highly ordered nanostructured carbon–sulphur cathode for lithium–sulphur batteries
TL;DR: In this paper, the authors report the feasibility to approach such capacities by creating highly ordered interwoven composites, where conductive mesoporous carbon framework precisely constrains sulphur nanofiller growth within its channels and generates essential electrical contact to the insulating sulphur.
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Advanced Materials for Energy Storage
TL;DR: This Review introduces several typical energy storage systems, including thermal, mechanical, electromagnetic, hydrogen, and electrochemical energy storage, and the current status of high-performance hydrogen storage materials for on-board applications and electrochemicals for lithium-ion batteries and supercapacitors.
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Three-dimensional flexible and conductive interconnected graphene networks grown by chemical vapour deposition
TL;DR: The direct synthesis of three-dimensional foam-like graphene macrostructures, which are called graphene foams (GFs), by template-directed chemical vapour deposition is reported, demonstrating the great potential of GF/poly(dimethyl siloxane) composites for flexible, foldable and stretchable conductors.
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