DNA 辅助组装碳纳米管和 MnO2 纳米球作为高性能非对称超级电容器的电极。
DNA-assisted assembly of carbon nanotubes and MnO2 nanospheres as electrodes for high-performance asymmetric supercapacitors.
机构信息
Department of Chemical & Biomolecular Engineering, National University of Singapore, Singapore.
出版信息
Phys Chem Chem Phys. 2014 Mar 14;16(10):4672-8. doi: 10.1039/c3cp54911a.
A DNA-assisted assembly approach is developed to fabricate a capacitor-type electrode material, DNA-functionalized carbon nanotubes (CNTs@DNA), and a battery-type electrode material, DNA@CNTs-bridged MnO2 spheres (CNTs@DNA-MnO2), for asymmetric supercapacitors. An energy density of 11.6 W h kg(-1) is achieved at a power density of 185.5 W kg(-1) with a high MnO2 mass loading of 4.2 mg cm(-2). It is found that DNA assembly plays a critical role in the enhanced supercapacitor performance. This is because while DNA molecules functionalize carbon nanotubes (CNTs) via π-π stacking, their hydrophilic sugar-phosphate backbones also promote the dispersion of CNTs. The resultant CNTs@DNA chains can link multiple MnO2 spheres to form a networked architecture that facilitates charge transfer and effective MnO2 utilization. The improved performance of the asymmetric supercapacitors indicates that DNA-assisted assembly offers a promising approach to the fabrication of high-performance energy storage devices.
一种 DNA 辅助组装方法被开发用于制造一种电容器型电极材料,即 DNA 功能化碳纳米管(CNTs@DNA),以及一种电池型电极材料,即 DNA@CNTs 桥联 MnO2 球(CNTs@DNA-MnO2),用于不对称超级电容器。在高 MnO2 质量负载为 4.2mgcm-2 的情况下,在 185.5Wkg-1 的功率密度下实现了 11.6Whkg-1 的能量密度。研究发现,DNA 组装在增强超级电容器性能方面起着关键作用。这是因为 DNA 分子通过 π-π 堆积功能化碳纳米管(CNTs),而其亲水性的糖磷酸骨架也促进了 CNTs 的分散。所得的 CNTs@DNA 链可以连接多个 MnO2 球,形成一个有利于电荷转移和有效利用 MnO2 的网络结构。不对称超级电容器性能的提高表明,DNA 辅助组装为制造高性能储能器件提供了一种很有前途的方法。
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