Core-Shell Nanoparticles with a Redox Polymer Core and a Silica Porous Shell as High-Performance Cathode Material for Lithium-Ion Batteries

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Core-Shell Nanoparticles with a Redox Polymer Core and a Silica Porous Shell as High-Performance Cathode Material for Lithium-Ion Batteries

机译：具有氧化还原聚合物核的核 - 壳纳米颗粒和二氧化硅多孔壳作为锂离子电池的高性能阴极材料

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A facile and novel method for the fabrication of core-shell nanoparticles (PTMA@SiO2) based on a poly(2,2,6,6-tetramethylpiperidinyloxy-4-yl methacrylate) (PTMA) core and a porous SiO2 shell is reported. The core-shell nanoparticles are further self-assembled with negatively charged multi-walled carbon nanotubes (MWCNTs), which results in the formation of a free-standing cathode electrode. The porous SiO2 shell not only effectively improves the stability of the linear PTMA redox polymer with low molar mass in organic electrolytes but also leads to the uniform dispersion of PTMA active units in the MWCNTs conductive network. The PTMA@SiO2@MWCNT composite electrode exhibits a specific capacity as high as 73.8 mAh g at 1 C and only 0.11% capacity loss per cycle at a rate of 2 C.

机译：基于聚（2,2,6,6-四甲基哌啶氧基-4-基丙烯酸酯）（PTMA）核和多孔SiO2壳，报道了一种适用于制备核壳纳米颗粒（PTMA @ SiO2）的嵌合和新方法。核 - 壳纳米颗粒进一步用带负电荷的多壁碳纳米管（MWCNT）自组装，这导致形成自由静态阴极电极。多孔SiO 2壳体不仅有效地改善了在有机电解质中具有低摩尔质量的线性PTMA氧化还原聚合物的稳定性，而且导致MWCNTS导电网络中PTMA有源单元的均匀分散。 PTMA @ SiO 2 @ MWCNT复合电极在1℃下表现出高达73.8mAhg的特定容量，并且每循环的每循环仅为0.11％的容量损失为2℃。

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《Energy Technology: Generation,Conversion,Storage,Distribution》 |2020年第3期|共8页
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中图分类能源与动力工程;
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composite electrodes; core-shell nanoparticles; energy storage; lithium-ion batteries; redox polymers;

机译：复合电极;核心壳纳米粒子;储能;锂离子电池;氧化还原聚合物;

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1. Core-Shell Nanoparticles with a Redox Polymer Core and a Silica Porous Shell as High-Performance Cathode Material for Lithium-Ion Batteries [J] . Energy Technology: Generation,Conversion,Storage,Distribution . 2020,第3期

机译：具有氧化还原聚合物核的核 - 壳纳米颗粒和二氧化硅多孔壳作为锂离子电池的高性能阴极材料
2. Metal-Organic-Framework Derived Core-Shell N-Doped Carbon Nanocages Embedded with Cobalt Nanoparticles as High-Performance Anode Materials for Lithium-Ion Batteries [J] . Xu Haoran, Zhao Lanling, Liu Xiaomeng, Advanced Functional Materials . 2020,第50期

机译：金属 - 有机骨架衍生含有钴纳米粒子的核 - 壳N掺杂的碳纳米片，作为锂离子电池的高性能阳极材料
3. Lithium-Ion Batteries: Three-Dimensional Porous Core-Shell Sn@Carbon Composite Anodes for High-Performance Lithium-Ion Battery Applications (Adv. Energy Mater. 2/2012) [J] . Xifei Li, Abirami Dhanabalan, Chunlei Wang Advanced energy materials . 2012,第2期

机译：锂离子电池：用于高性能锂离子电池应用的三维多孔核-壳锡@碳复合阳极（Adv。Energy Mater。2/2012）
4. 'Core-shell' cathode materials for lithium-ion batteries prepared via mechanochemical route [C] . N. V. Kosova, E. T. Devyatkina, V. V. Kaichev, ECS Meeting/PRiME . 2009

机译：“核心壳”阴极材料用于锂离子电池，通过机械化路线制备
5. Beyond Conventional Cathode Materials for Lithium-ion Batteries and Sodium-ion Batteries Nickel fluoride conversion materials and P2 type Sodium-ion intercalation cathodes. [D] . Lee, Dae Hoe. 2013

机译：除了用于锂离子电池和钠离子电池的常规阴极材料以外，氟化镍转换材料和P2型钠离子嵌入阴极。
6. The Core-Shell Heterostructure CNT@Li2FeSiO4@C as a Highly Stable Cathode Material for Lithium-Ion Batteries [O] . Tao Peng, Wei Guo, Yingge Zhang, 2019

机译：核-壳异质结构CNT @ Li2FeSiO4 @ C作为锂离子电池的高度稳定的阴极材料
7. Core‐Shell Nanoparticles with a Redox Polymer Core and a Silica Porous Shell as High‐Performance Cathode Material for Lithium‐Ion Batteries [O] . He Jia, Christian Friebe, Ulrich S. Schubert, 2020

机译：具有氧化还原聚合物核的核 - 壳纳米粒子和二氧化硅多孔壳，作为锂离子电池的高性能阴极材料
8. High-Performance Lithium-Ion Battery Anode Based on the Core-Shell Heterostructure of Silicon-Coated Vertically Aligned Carbon Nanofibers. [R] . Klankowski, S. A., Rojeski, R. A., Cruden, B. A., 2013

机译：基于硅涂层垂直排列碳纳米纤维核壳异质结构的高性能锂离子电池正极。

Core-Shell Nanoparticles with a Redox Polymer Core and a Silica Porous Shell as High-Performance Cathode Material for Lithium-Ion Batteries

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