Lingling Zhang, Xia Wang, Chong Gong, Weiyan Sun, Zihan Lu
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引用次数: 0
摘要
Co3O4 纳米粒子被夹在 ZIF-8 和 ZIF-67 之间的夹层中,形成 ZIF-Co3O4@ZIF 前体。热解 ZIF-Co3O4@ZIF 得到了海胆状分层多孔碳(Co@CNT/NC),其刺是嵌入 Co 纳米粒子的碳纳米管。制备的 Co@CNT/NC 具有较大的比表面积和分层多孔结构,表现出优异的双功能氧电催化性能。它具有良好的 ORR 性能,E1/2 为 0.85 V,超过了 Pt/C 半波电位(E1/2=0.83 V)。此外,Co@CNT/NC 的 OER 性能接近 RuO2。为了进一步证明 Co 修饰对性能的影响,对样品进行了酸洗处理。结果表明,酸洗后,Co@CNT/NC 中的 Co 颗粒明显减少,导致氧电催化性能变差。因此,ZIF-8-Co3O4@ZIF-67 的热解产物一方面保留了较大的比表面积和多孔结构,另一方面保留了碳管结构和原有的多面体框架。此外,Co 纳米粒子@碳纳米管的存在提供了更多的活性位点,提高了 ORR 和 OER 性能。
ZIF-Co3O4@ZIF-Derived Urchin-Like Hierarchically Porous Carbon as Efficient Bifunctional Oxygen Electrocatalysts
Co3O4 nanoparticles were sandwiched into interlayers between ZIF-8 and ZIF-67 to form ZIF-Co3O4@ZIF precursors. Pyrolysis of ZIF-Co3O4@ZIF yielded an urchin-like hierarchically porous carbon (Co@CNT/NC), the thorns of which were carbon nanotubes embedded Co nanoparticles. With large specific surface area and hierarchically porous structure, as-prepared Co@CNT/NC exhibited excellent bifunctional oxygen electrocatalytic performances. It has good ORR performance with E1/2 of 0.85 V, which exceeds the Pt/C half-wave potential (E1/2=0.83 V). In addition, Co@CNT/NC has an OER performance close to that of RuO2. To further demonstrate the effect of Co modifying on the properties, the samples were subjected to acid washing treatment. Co-based nanoparticles were proved to After acid washing, there was obvious loss of Co particles in Co@CNT/NC, resulting in poor oxygen electrocatalysis. So, the pyrolysis products of ZIF-8-Co3O4@ZIF-67 retained large specific surface area and porous structure can be retained, and on the other hand, the carbon tube structure and original polyhedron framework. Besides, existence of Co nanoparticle@carbon nanotube provided more active sites and improved the ORR and OER performances.
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