在聚苯胺修饰的镍泡沫上生长的超薄 Ni-MOF 纳米片阵列，可用作具有高能量密度的不对称超级电容器的先进电极。

Ultrathin Ni-MOF nanosheet arrays grown on polyaniline decorated Ni foam as an advanced electrode for asymmetric supercapacitors with high energy density.

机构信息

School of Materials Science & Chemical Engineering, Ningbo University, Ningbo 315211, China.

出版信息

Dalton Trans. 2019 Mar 26;48(13):4119-4123. doi: 10.1039/c9dt00386j.

Abstract

Metal-organic frameworks (MOFs) have emerged as promising electrode materials for supercapacitors (SCs), due to their diverse functionalities and high porosity. However, the applications of MOFs in practical SC devices are restricted by their intrinsic low conductivity and poor stability. Herein, a thin layer of conductive polyaniline (PANI) was decorated on Ni foam (NF) before the growth of Ni-MOF to tackle these issues. PANI not only improves the conductivity but also promotes the formation of Ni-MOF nanosheet arrays and ensures good mechanical adhesion. The as-prepared Ni-MOF/PANI/NF exhibits a high areal capacitance (3626.4 mF cm-2 at 2 mA cm-2) and good rate capacity (71.3% at 50 mA cm-2). Moreover, an asymmetric supercapacitor (ASC) device using Ni-MOF/PANI/NF and activated carbon (AC) can deliver a maximum energy density of 45.6 W h kg-1 (850.0 W kg-1) with excellent cycling stability (capacitance retention of 81.6% after 10 000 cycles), outperforming most of the reported pristine MOF-based ASC devices.

摘要

金属-有机骨架（MOFs）由于其多功能性和高孔隙率，已成为超级电容器（SCs）的有前途的电极材料。然而，MOFs 在实际 SC 器件中的应用受到其固有低导电性和差稳定性的限制。在此，在生长 Ni-MOF 之前，在 NF 上修饰了一层薄薄的导电聚苯胺（PANI），以解决这些问题。PANI 不仅提高了导电性，还促进了 Ni-MOF 纳米片阵列的形成，并确保了良好的机械附着力。所制备的 Ni-MOF/PANI/NF 表现出高面积电容（在 2 mA cm-2 时为 3626.4 mF cm-2）和良好的倍率性能（在 50 mA cm-2 时为 71.3%）。此外，使用 Ni-MOF/PANI/NF 和活性炭（AC）的非对称超级电容器（ASC）装置可提供 45.6 W h kg-1 的最大能量密度（850.0 W kg-1），具有出色的循环稳定性（10000 次循环后电容保持率为 81.6%），超过了大多数报道的原始 MOF 基 ASC 装置。

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在聚苯胺修饰的镍泡沫上生长的超薄 Ni-MOF 纳米片阵列，可用作具有高能量密度的不对称超级电容器的先进电极。

Ultrathin Ni-MOF nanosheet arrays grown on polyaniline decorated Ni foam as an advanced electrode for asymmetric supercapacitors with high energy density.

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