Au-Decorated Cracked Carbon Tube Arrays as Binder-Free Catalytic Cathode Enabling Guided Li₂O₂ Inner Growth for High-Performance Li-O₂ Batteries

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• 作者：Fangfang Tu ; Junping Hu ; Jian Xie ; Gaoshao Cao ; Shichao Zhang ; Shengyuan A. Yang ; Xinbing Zhao and Hui Ying Yang
• 刊名：Advanced Functional Materials
• 出版年：2016
• 出版时间：November 8, 2016
• 年：2016
• 卷：26
• 期：42
• 页码：7725-7732
• 全文大小：1271K
• ISSN：1616-3028

文摘

Owing to their extremely high energy density, Li-O₂ batteries have attained increasing attention in recent studies. However, deposition of the discharge product, insulating Li₂O₂, is known to seriously limit the electrochemical performance of Li-O₂ batteries. While extensive studies have focused on relieving electrode deactivation by controlling Li₂O₂ growth, no permanent or effective mechanism is delivered. Here, a unique design comprising a catalytic cathode constructed by cracked carbon submicron tube (CST) arrays decorated with Au nanoparticles on inner walls is proposed. The introduction of Au nanoparticles not only improves electrode conductivity but also provides catalytic sites, guiding conformal growth of thin-layered Li₂O₂ inside the cracked CST. Density functional theory calculations support that Au decoration on CST favors the conformal growth of Li₂O₂ on inner tubular walls. This growth behavior of Li₂O₂ renders easy decomposition of Li₂O₂, prevents carbon tube electrode from full, rapid deactivation, and preserves the free space for reactants transport. Li-O₂ cells with Au@CST exhibit good rate capability (1208 mAh g^–1 at a high current density of 1000 mA g^–1) and long cycle life (112 cycles at a current density of 400 mA g^–1 with a limited capacity of 500 mAh g^–1).