{"title":"在自支撑碳布上简单制备用于高性能锂硫电池的 Nb2O5/PANI 纳米复合材料","authors":"Meili Qi, Hui Li, Xinyi Li, Ming Hu","doi":"10.1007/s10904-024-03271-5","DOIUrl":null,"url":null,"abstract":"<div><p>Lithium-sulfur batteries have attracted significant attention due to their high theoretical capacity density (1675 mA h g<sup>− 1</sup>) and low production cost. However, under practical conditions, the low conductivity of sulfur, volume expansion, and shuttle effect of lithium polysulfide (LiPSs) still hinder the broad application of lithium-sulfur batteries. A self-assembled flexible electrode material (Nb<sub>2</sub>O<sub>5</sub>/PANI-cc@S) is designed and fabricated here. The core of Nb<sub>2</sub>O<sub>5</sub> nanowire arrays is coated with a shell of PANI and assembled with carbon cloth (cc) as a new sulfur fluid collector. The composite exposes more active sites between sulfur and the catalytic medium to capture LiPSs. In addition, the extra free space between Nb<sub>2</sub>O<sub>5</sub> nanowire arrays is conducive to the penetration of liquid electrolytes. Moreover, the shell structure of PANI on the electrode surface enhances the structural stability of the composite electrode material. It effectively inhibits the outward diffusion of polysulfide and the volume expansion during the cycle. Thanks to these synergies, the self-supporting Nb<sub>2</sub>O<sub>5</sub>/PANI-cc@S has a high specific capacity of 1265.7 mA h g<sup>− 1</sup> at 0.1 C and retains an impressive 1112.2 mA h g<sup>− 1</sup> capacity even after 100 cycles at 0.1 C. It shows great potential to promote the practical application of flexible lithium-sulfur batteries.</p><h3>Graphical Abstract</h3><div><figure><div><div><picture><source><img></source></picture></div></div></figure></div></div>","PeriodicalId":639,"journal":{"name":"Journal of Inorganic and Organometallic Polymers and Materials","volume":"35 1","pages":"374 - 383"},"PeriodicalIF":3.9000,"publicationDate":"2024-08-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Simple Fabrication of Nb2O5/PANI Nanocomposite on Self-Supporting Carbon Cloth for High Performance Lithium-Sulfur Batteries\",\"authors\":\"Meili Qi, Hui Li, Xinyi Li, Ming Hu\",\"doi\":\"10.1007/s10904-024-03271-5\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Lithium-sulfur batteries have attracted significant attention due to their high theoretical capacity density (1675 mA h g<sup>− 1</sup>) and low production cost. However, under practical conditions, the low conductivity of sulfur, volume expansion, and shuttle effect of lithium polysulfide (LiPSs) still hinder the broad application of lithium-sulfur batteries. A self-assembled flexible electrode material (Nb<sub>2</sub>O<sub>5</sub>/PANI-cc@S) is designed and fabricated here. The core of Nb<sub>2</sub>O<sub>5</sub> nanowire arrays is coated with a shell of PANI and assembled with carbon cloth (cc) as a new sulfur fluid collector. The composite exposes more active sites between sulfur and the catalytic medium to capture LiPSs. In addition, the extra free space between Nb<sub>2</sub>O<sub>5</sub> nanowire arrays is conducive to the penetration of liquid electrolytes. Moreover, the shell structure of PANI on the electrode surface enhances the structural stability of the composite electrode material. It effectively inhibits the outward diffusion of polysulfide and the volume expansion during the cycle. Thanks to these synergies, the self-supporting Nb<sub>2</sub>O<sub>5</sub>/PANI-cc@S has a high specific capacity of 1265.7 mA h g<sup>− 1</sup> at 0.1 C and retains an impressive 1112.2 mA h g<sup>− 1</sup> capacity even after 100 cycles at 0.1 C. 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引用次数: 0
摘要
锂硫电池因其理论容量密度高(1675 mA h g-1)和生产成本低而备受关注。然而,在实际条件下,硫的低导电性、体积膨胀以及多硫化锂(LiPSs)的穿梭效应仍然阻碍着锂硫电池的广泛应用。本文设计并制作了一种自组装柔性电极材料(Nb2O5/PANI-cc@S)。Nb2O5 纳米线阵列的内核涂覆有 PANI 外壳,并与碳布(cc)组装成新的硫液收集器。这种复合材料在硫和催化介质之间暴露出更多的活性位点,以捕获锂离子。此外,Nb2O5 纳米线阵列之间的额外自由空间有利于液体电解质的渗透。此外,电极表面的 PANI 壳结构增强了复合电极材料的结构稳定性。它能有效抑制多硫化物的向外扩散和循环过程中的体积膨胀。得益于这些协同作用,自支撑 Nb2O5/PANI-cc@S 在 0.1 C 下具有 1265.7 mA h g- 1 的高比容量,并且在 0.1 C 下循环 100 次后仍能保持惊人的 1112.2 mA h g- 1 容量。
Simple Fabrication of Nb2O5/PANI Nanocomposite on Self-Supporting Carbon Cloth for High Performance Lithium-Sulfur Batteries
Lithium-sulfur batteries have attracted significant attention due to their high theoretical capacity density (1675 mA h g− 1) and low production cost. However, under practical conditions, the low conductivity of sulfur, volume expansion, and shuttle effect of lithium polysulfide (LiPSs) still hinder the broad application of lithium-sulfur batteries. A self-assembled flexible electrode material (Nb2O5/PANI-cc@S) is designed and fabricated here. The core of Nb2O5 nanowire arrays is coated with a shell of PANI and assembled with carbon cloth (cc) as a new sulfur fluid collector. The composite exposes more active sites between sulfur and the catalytic medium to capture LiPSs. In addition, the extra free space between Nb2O5 nanowire arrays is conducive to the penetration of liquid electrolytes. Moreover, the shell structure of PANI on the electrode surface enhances the structural stability of the composite electrode material. It effectively inhibits the outward diffusion of polysulfide and the volume expansion during the cycle. Thanks to these synergies, the self-supporting Nb2O5/PANI-cc@S has a high specific capacity of 1265.7 mA h g− 1 at 0.1 C and retains an impressive 1112.2 mA h g− 1 capacity even after 100 cycles at 0.1 C. It shows great potential to promote the practical application of flexible lithium-sulfur batteries.
期刊介绍:
Journal of Inorganic and Organometallic Polymers and Materials [JIOP or JIOPM] is a comprehensive resource for reports on the latest theoretical and experimental research. This bimonthly journal encompasses a broad range of synthetic and natural substances which contain main group, transition, and inner transition elements. The publication includes fully peer-reviewed original papers and shorter communications, as well as topical review papers that address the synthesis, characterization, evaluation, and phenomena of inorganic and organometallic polymers, materials, and supramolecular systems.
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