In Situ Polymerized Conjugated Poly(pyrene-4,5,9,10-tetraone)/ Carbon Nanotubes Composites for High-Performance Cathode of Sodium Batteries

Shi Ruijuan; Liu Luojia; Lu Yong; Li Yixin; Zheng Shibing; Yan Zhenhua; Zhang Kai; Chen Jun

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In Situ Polymerized Conjugated Poly(pyrene-4,5,9,10-tetraone)/ Carbon Nanotubes Composites for High-Performance Cathode of Sodium Batteries

机译：在原位聚合的共轭聚（芘-4,5,9,10-四氢酮）/碳纳米管复合材料，用于高性能电池的高性能阴极

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Sodium batteries have attracted much attention in recent years because of their comprehensive electrochemical performance, high abundance, and low cost of sodium resources. However, the unsatisying energy density and poor cycling stability of current sodium batteries restrict their large-scale applications. Here an in situ polymerization method to construct pi-conjugated poly(pyrene-4,5,9,10-tetraone)/carbon nanotubes (PPTO-CNTs) composites as cathode materials for sodium batteries is used. It is found that the pi-pi interaction between PPTO and CNTs in PPTO-CNTs composites overcomes the repulsion between each PPTO unit, leading to a flat configuration of PPTO and enhancing the electronic conductivity and active sites accessibility of PPTO-CNTs composites. Thus, PPTO-CNTs electrodes display a high discharge capacity of 360.2 mAh g(-1), long cycling stability (a capacity retention of 95.1% after 1300 cycles), and high rate capability (194.5 mAh g(-1) at 10.0 A g(-1)). Moreover, a pouch-type Na//PPTO-CNTs cell with an energy density of approximate to 204.0 Wh kg(PPTO+Na)(-1) is fabricated, exhibiting a capacity retention of 91.2% after 100 cycles. In addition, the combination of experiments and theoretical calculations demonstrates the four-sodium-ion redox chemistry mechanism of each PPTO molecule unit. This work should promote the practical application of conjugated polymers in high-performance sodium batteries.

机译：钠电池近年来引起了很多关注，因为它们的综合电化学性能，高丰度和钠资源的低成本。然而，当前钠电池的令人不转的能量密度和循环稳定性差限制了其大规模应用。这里，使用以钠电池的阴极材料构建PI缀合的聚（芘-4,5,9,10-10-四氢酮）/碳纳米管（PPTO-CNT）复合材料的原位聚合方法。发现PPTO-CNT复合材料中PPTO和CNT之间的PI-PI相互作用克服了每个PPTO单元之间的排斥，导致PPTO的平坦构造并增强PPTO-CNT复合材料的电子电导率和有源位置可访问性。因此，PPTO-CNTS电极显示出360.2mahg（-1）的高放电容量，长循环稳定性（在1300次循环后的95.1％的容量保持），以及10.0 a的高速率能力（194.5mah g（-1） g（-1））。此外，制备了具有近似的近似的近似的能量密度的袋型Na // PPTO-CNTS细胞，在100次循环后表现出91.2％的容量保留。此外，实验和理论计算的组合证明了每种PPTO分子单元的四钠离子氧化还原化学机制。这项工作应促进共轭聚合物在高性能钠电池中的实际应用。

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来源
《Advanced energy materials》 |2021年第6期|2002917.1-2002917.10|共10页
作者
Shi Ruijuan; Liu Luojia; Lu Yong; Li Yixin; Zheng Shibing; Yan Zhenhua; Zhang Kai; Chen Jun;
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Nankai Univ Engn Res Ctr High Efficiency Energy Storage Renewable Energy Convers & Storage Ctr RECAST Key Lab Adv Energy Mat Chem Minist Educ Tianjin 300071 Peoples R China;

Nankai Univ Engn Res Ctr High Efficiency Energy Storage Renewable Energy Convers & Storage Ctr RECAST Key Lab Adv Energy Mat Chem Minist Educ Tianjin 300071 Peoples R China;

Nankai Univ Engn Res Ctr High Efficiency Energy Storage Renewable Energy Convers & Storage Ctr RECAST Key Lab Adv Energy Mat Chem Minist Educ Tianjin 300071 Peoples R China;

Nankai Univ Engn Res Ctr High Efficiency Energy Storage Renewable Energy Convers & Storage Ctr RECAST Key Lab Adv Energy Mat Chem Minist Educ Tianjin 300071 Peoples R China;

Nankai Univ Engn Res Ctr High Efficiency Energy Storage Renewable Energy Convers & Storage Ctr RECAST Key Lab Adv Energy Mat Chem Minist Educ Tianjin 300071 Peoples R China;

Nankai Univ Engn Res Ctr High Efficiency Energy Storage Renewable Energy Convers & Storage Ctr RECAST Key Lab Adv Energy Mat Chem Minist Educ Tianjin 300071 Peoples R China;

Nankai Univ Engn Res Ctr High Efficiency Energy Storage Renewable Energy Convers & Storage Ctr RECAST Key Lab Adv Energy Mat Chem Minist Educ Tianjin 300071 Peoples R China;

Nankai Univ Engn Res Ctr High Efficiency Energy Storage Renewable Energy Convers & Storage Ctr RECAST Key Lab Adv Energy Mat Chem Minist Educ Tianjin 300071 Peoples R China;

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正文语种 eng
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carbon nanotubes; conjugated organic polymers; DFT calculations; sodium batteries; sodium storage mechanism;

机译：碳纳米管;共轭有机聚合物;DFT计算;钠电池;钠储存机制;

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机译：高性能可充电锂电池的有前途的石墨烯/碳纳米管泡沫@π共轭聚合物自支撑复合阴极
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机译：基于硝基氧化物自由基聚合物官能化碳纳米管和高性能有机聚合物电池的粘结剂有机阴极
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机译：用原位聚合制备多壁碳纳米管/聚（ε-己内酮）复合材料的制备与表征
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机译：碳纳米管的功能化，用于聚合碳纳米复合材料和生物共轭物。
6. High-Performance Cathode Material of FeF3·0.33H2O Modified with Carbon Nanotubes and Graphene for Lithium-Ion Batteries [O] . Lu Lu, Sheng Li, Jun Li, 2019

机译：碳纳米管和石墨烯修饰的FeF3·0.33H2O高性能正极材料
7. Poly(vinylene carbonate)-Based Composite Polymer Electrolyte with Enhanced Interfacial Stability To Realize High-Performance Room-Temperature Solid-State Sodium Batteries [O] . -1

机译：聚（碳酸亚乙烯酯）基于复合聚合物电解质，具有增强的界面稳定性，实现高性能室温固态钠电池

In Situ Polymerized Conjugated Poly(pyrene-4,5,9,10-tetraone)/ Carbon Nanotubes Composites for High-Performance Cathode of Sodium Batteries

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