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Titlebook: Next Generation Batteries; Realization of High Kiyoshi Kanamura Book 2021 Springer Nature Singapore Pte Ltd. 2021 Rechargeable batteries.A

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發(fā)表于 2025-3-21 19:02:13 | 只看該作者 |倒序?yàn)g覽 |閱讀模式
書目名稱Next Generation Batteries
副標(biāo)題Realization of High
編輯Kiyoshi Kanamura
視頻videohttp://file.papertrans.cn/667/666184/666184.mp4
概述Reports on the developments and investigations in next-generation batteries.Enables readers to understand the current status of studies, difficulties in science, and challenging technological issues o
圖書封面Titlebook: Next Generation Batteries; Realization of High Kiyoshi Kanamura Book 2021 Springer Nature Singapore Pte Ltd. 2021 Rechargeable batteries.A
描述In this book, the development of next-generation batteries is introduced. Included are reports of investigations to realize high energy density batteries: Li-air, Li-sulfur, and all solid-state and metal anode (Mg, Al, Zn) batteries. Sulfide and oxide solid electrolytes are also reviewed.A number of relevant aspects of all solid-state batteries with a carbon anode or Li-metal anode are discussed and described: The formation of the cathode; the interface between the cathode (anode) and electrolyte; the discharge and charge mechanisms of the Li-air battery; the electrolyte system for the Li-air battery; and cell construction.?.The Li-sulfur battery involves a critical problem, namely, the dissolution of intermediates of sulfur during the discharge process. Here, new electrolyte systems for the suppression of intermediate dissolution are discussed. Li-metal batteries with liquid electrolytes also present a significant problem: the dendrite formation of lithium. New separators and electrolytes are introduced to improve the safety and rechargeability of the Li-metal anode. Mg, Al, and Zn metal anodes have been also applied to rechargeable batteries, and in this book, new metal anode bat
出版日期Book 2021
關(guān)鍵詞Rechargeable batteries; All solid state batteries; Li-air batteries; Li-sulfur batteries; Metal anode ba
版次1
doihttps://doi.org/10.1007/978-981-33-6668-8
isbn_softcover978-981-33-6670-1
isbn_ebook978-981-33-6668-8
copyrightSpringer Nature Singapore Pte Ltd. 2021
The information of publication is updating

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https://doi.org/10.1007/978-981-33-6668-8Rechargeable batteries; All solid state batteries; Li-air batteries; Li-sulfur batteries; Metal anode ba
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Glass Electrolytesses are prepared via mechanochemistry as room temperature process. Crystallization of a metastable phase from glass electrolytes often increases conductivity. Both electrochemical stability and chemical stability are improved by selecting compositions of sulfide electrolytes.
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Li Negative Electrodeting cycling is important. Modification of electrode–electrolyte interface is effective in improving electrochemical performance by both the insertion of Au buffer layer and the use of Li.PS.–LiI with good compatibility to Li metal.
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Importance of Next-Generation Batterieside in our society. Lithium-ion battery has been utilized in these applications due to its highest energy density among rechargeable batteries. However, a higher energy density of rechargeable batteries is needed for future energy society. In this section, a background of development of next-generat
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Concentrated Electrolytes for Lithium Metal Negative Electrodesic efficiency resulting from the reductive decomposition of an electrolyte thereon, which has hampered its commercial applications. Various electrolytes and additives have been proposed to form a stable interphase between Li metal and electrolyte. Among them, salt-concentrated electrolytes have been
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Crystalline Electrolyte attractive owing to their high ionic conductivity compared to the counterparts of oxides. For the commercialization of solid-state batteries, however, there are still demands for the development of solid electrolytes with various characteristics to satisfy the essential requirements such as high co
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