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Approaches to Improving the Capacity, Rate Capability, and Longevity of Next Generation Lithium-ion Batteries

机译：改善下一代锂离子电池容量，额定容量和寿命的方法

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Electrochemical storage has gained momentum amid increasing concerns for a cleaner, more environmentally friendly future. Currently, lithium ion battery systems do not meet the requirements to quell the increasing concerns and it is therefore imperative to move in a new direction. Top contenders for 'beyond lithium' is lithium-sulfur (Li-S) and silicon (Si) and other various metal oxides. In order for these materials to be adopted, it is necessary to use alternative methods of synthesis, varying architectures, and different approaches to formation. Herein, different methods for improving sulfur, silicon, and nickel oxide capacity, rate capability, and longevity will be explored using electrochemical and physical characterization.

机译：随着人们对更清洁，更环保的未来的担忧日益浓厚，电化学存储得到了发展。当前，锂离子电池系统不能满足消除日益增长的担忧的要求，因此必须朝着新的方向发展。 “超越锂”的主要竞争者是锂硫（Li-S）和硅（Si）以及其他各种金属氧化物。为了采用这些材料，必须使用替代的合成方法，不同的架构和不同的形成方法。本文中，将使用电化学和物理表征探索提高硫，硅和氧化镍容量，速率容量和寿命的不同方法。

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作者
Bell, Jeffrey Michael.;
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作者单位

University of California, Riverside.;

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授予单位 University of California, Riverside.;
学科 Energy.;Materials science.;Engineering.
学位 Ph.D.
年度 2018
页码 130 p.
总页数 130
原文格式 PDF
正文语种 eng
中图分类
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入库时间 2022-08-17 11:53:14

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专利

1. Microanostructured MnCo_2O_(4.5) anodes with high reversible capacity and excellent rate capability for next generation lithium-ion batteries [J] . Wang Bin, Wang Shifeng, Tang Yuanyuan, Applied Energy . 2019,第Octa15期

机译：具有高可逆容量和优异倍率性能的微型/纳米结构MnCo_2O_（4.5）负极，适用于下一代锂离子电池
2. Pristine Surface Investigation of Li1.2Mn0.54Ni0.13Co0.13O2 towards Improving Capacity and Rate-capability for Lithium-ion Batteries [J] . Fan Jianming, Li Guangshe, Li Guohua, Electrochimica Acta . 2017,第期

机译：Li1.2Mn0.54Ni0.13Co0.13O2改善锂离子电池容量和速率能力的原始表面研究
3. MoO2-ordered mesoporous carbon hybrids as anode materials with highly improved rate capability and reversible capacity for lithium-ion battery [J] . Ailian Chen, Caixia Li, Rui Tang Physical chemistry chemical physics: PCCP . 2013,第32期

机译：MoO2介孔碳杂化材料作为负极材料，具有极高的倍率能力和可逆容量，可用于锂离子电池
4. MODIFICATION OF INTERLAYER DISTANCES OF TITANATES BY CHANGING PH THEIR USE AS A LITHIUM-ION BATTERY ANODE WITH HIGH CAPACITY AND RATE CAPABILITY [C] . Alp Yurum, Miad Yarali, Emre Bicer American Chemical Society National Meeting Exposition . 2015

机译：通过改变pH和它们用作具有高容量和速率能力的锂离子电池阳极来改变钛酸酯的层间距离
5. Improved positive electrode materials for lithium-ion batteries: Exploring the high specific capacity of lithium cobalt oxide and the high rate capability of lithium iron phosphate. [D] . Chen, Zhaohui. 2003

机译：改进的锂离子电池正极材料：探索钴酸锂的高比容量和磷酸铁锂的高倍率功能。
6. Seaweed-Liked WS2/rGO Enabling Ultralong Cycling Life and Enhanced Rate Capability for Lithium-Ion Batteries [O] . Yi Huang, Yu Jiang, Zhaofei Ma, 2019

机译：具有海藻味的WS2 / rGO可实现超长循环寿命并增强锂离子电池的倍率能力
7. Superhigh capacity and rate capability of high-level nitrogen-doped graphene sheets as anode materials for lithium-ion batteries [O] . Cai D., Wang S., Lian P., 2013

机译：高级氮掺杂石墨烯片作为锂离子电池负极材料的超高容量和倍率性能

Approaches to Improving the Capacity, Rate Capability, and Longevity of Next Generation Lithium-ion Batteries

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