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Nanosilicon anodes for high performance rechargeable batteries
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In this article, the state-of-the-art fabrication methods of nanosilicon, including ball milling, chemical vapor deposition, metal-assisted chemical etching and magnesiothermic reduction, as well as the design principles and the selection criteria for fabricating high performance Si nanostructures are discussed.About:
This article is published in Progress in Materials Science.The article was published on 2017-10-01. It has received 175 citations till now.read more
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30 Years of Lithium-Ion Batteries.
TL;DR: The main roles of material science in the development of LIBs are discussed, with a statement of caution for the current modern battery research along with a brief discussion on beyond lithium-ion battery chemistries.
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Reviving lithium cobalt oxide-based lithium secondary batteries-toward a higher energy density
TL;DR: This review summarizes the key challenges of synthesizing L CO-based LBs with a higher energy density from the perspectives of structure and interface stability, and gives an account of effective modification strategies in view of the electrodes, liquid electrolytes, binders, separators, solid electrolytes and LCO-based full cells.
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Exceptional catalytic effects of black phosphorus quantum dots in shuttling-free lithium sulfur batteries
Zhenglong Xu,Zhenglong Xu,Shenghuang Lin,Nicolas Onofrio,Li Min Zhou,Fangyi Shi,Wei Lu,Kisuk Kang,Qiang Zhang,Shu Ping Lau +9 more
TL;DR: Black phosphorus quantum dots are used to adsorb and catalyze the conversion of lithium polysulfides to lithium sulfide, achieving low capacity fade and high sulfur loading.
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Anode Interface Engineering and Architecture Design for High‐Performance Lithium–Sulfur Batteries
TL;DR: Manipulating the anode interface engineering and rationally designing anode architecture represents an attractive path to develop high-performance Li-S batteries.
Journal ArticleDOI
New Deformation-Induced Nanostructure in Silicon.
Bo Wang,Bo Wang,Zhenyu Zhang,Keke Chang,Junfeng Cui,Junfeng Cui,Andreas Rosenkranz,Jinhong Yu,Cheng-Te Lin,Guoxin Chen,Ketao Zang,Jun Luo,Nan Jiang,Dongming Guo +13 more
TL;DR: A new deformation-induced nanostructure was observed by transmission electron microscopy, consisting of an amorphous phase, a new tetragonal phase, slip bands, twinning superlattices, and a single crystal, providing new insights for potential applications in transistors, integrated circuits, diodes, solar cells, and energy storage systems.
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Issues and challenges facing rechargeable lithium batteries
TL;DR: A brief historical review of the development of lithium-based rechargeable batteries is presented, ongoing research strategies are highlighted, and the challenges that remain regarding the synthesis, characterization, electrochemical performance and safety of these systems are discussed.
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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.
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Nanostructured materials for advanced energy conversion and storage devices
Antonino S. Aricò,Peter G. Bruce,Bruno Scrosati,Jean-Marie Tarascon,Jean-Marie Tarascon,Walter van Schalkwijk +5 more
TL;DR: This review describes some recent developments in the discovery of nanoelectrolytes and nanoeLECTrodes for lithium batteries, fuel cells and supercapacitors and the advantages and disadvantages of the nanoscale in materials design for such devices.
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Li-O2 and Li-S batteries with high energy storage.
Peter G. Bruce,Stefan Freunberger,Laurence J. Hardwick,Laurence J. Hardwick,Jean-Marie Tarascon +4 more
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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High-performance lithium battery anodes using silicon nanowires
Candace K. Chan,Hailin Peng,Gao Liu,Kevin McIlwrath,Xiao Feng Zhang,Robert A. Huggins,Yi Cui +6 more
TL;DR: The theoretical charge capacity for silicon nanowire battery electrodes is achieved and maintained a discharge capacity close to 75% of this maximum, with little fading during cycling.