Reports from Xiamen University of Technology Provide New Insights into Rare Metals (Surface Decoration of Mesocarbon Microbeads With Multifunctional Tinbo4-x@c Coating Layer As High Rate and Stable Anode of Li-ion Batteries)

首页> 外文期刊>Mining & Minerals Daily >Reports from Xiamen University of Technology Provide New Insights into Rare Metals (Surface Decoration of Mesocarbon Microbeads With Multifunctional Tinbo4-x@c Coating Layer As High Rate and Stable Anode of Li-ion Batteries)

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Reports from Xiamen University of Technology Provide New Insights into Rare Metals (Surface Decoration of Mesocarbon Microbeads With Multifunctional Tinbo4-x@c Coating Layer As High Rate and Stable Anode of Li-ion Batteries)

机译：厦门工业大学的报告为稀有金属（多功能Tinbo4-x@c涂层的中碳微珠表面装饰作为锂离子电池的高倍率和稳定阳极）提供了新的见解

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2024 FEB 22 (NewsRx) – By a News Reporter-Staff News Editor at Mining Minerals Daily Daily – Fresh data on Rare Metals are presented in a new report. According to news originating from Xiamen, People’s Republic of China, by NewsRx correspondents, research stated, "Surface modification of graphite anode with electroactive matters has been proven of a more practical strategy in enhancing the performance of Li-ion batteries than exploring alternative novel anode materials. Herein, rutile TiNbO4-x nanoparticles with a tunnel structure are employed as multifunctional decoration substances in combination with a carbon coating layer to improve the rate and cycle properties of mesocarbon microbeads (MCMBs).”

机译：2024 年 2 月 22 日（NewsRx） – 由《矿业与矿产日报》的新闻记者兼新闻编辑撰写 – 一份新报告中介绍了有关稀有金属的最新数据。据NewsRx记者从中华人民共和国厦门发来的消息，研究指出，“与探索替代新型负极材料相比，用电活性物质对石墨阳极进行表面改性已被证明是提高锂离子电池性能的更实用的策略。本文采用具有隧道结构的金红石型TiNbO4-x纳米颗粒作为多功能装饰物质，结合碳涂层，改善了介碳微珠（MCMBs）的速率和循环性能。

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《Mining & Minerals Daily》 |2024年第22期|3-3|共1页
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Reports from Xiamen University of Technology Provide New Insights into Rare Metals (Surface Decoration of Mesocarbon Microbeads With Multifunctional Tinbo4-x@c Coating Layer As High Rate and Stable Anode of Li-ion Batteries)

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