標題: High energy density of all-screen-printable solid-state microsupercapacitors integrated by graphene/CNTs as hierarchical electrodes
作者: Chih, Jui-Kung
Jamaluddin, Anif
Chen, Fuming
Chang, Jeng-Kuei
Su, Ching-Yuan
材料科學與工程學系
Department of Materials Science and Engineering
公開日期: 28-五月-2019
摘要: Microsupercapacitors (MSCs) are alternative power sources that have the potential to fulfill the increasing demand for wearable and on-chip electronics as they are small and lightweight, and show extremely high charge-discharge rates and power densities, and have high flexibility. However, the critical challenge of recent MSCs is the limitation of low energy density and complicated fabrication processes that are high cost and time-consuming. Here, we reported an all-screen-printable method for fabricating all-solid (including electrolytes) and flexible MSCs by rationally designed composite electrodes with electrochemically exfoliated graphene (ECG) and long single-walled carbon nanotubes (CNTs). This method demonstrated to be a facile and scalable route to fabricate and assemble MSCs in a cost-effective manner and with high throughput. As a result, the resulting MSC devices exhibit an areal capacitance of 7.7 mF cm(-2) and volumetric capacitance of 77.3 F cm(-3), with an excellent cyclic stability of >99% after 15000 cycles; this can be attributed to the creation of a high diffusion path and the promotion of ion transport capability. The cell exhibits energy and power densities of 10.7 mW h cm(-3) and 3.17 W cm(-3), respectively. Moreover, there was negligible degradation in capacitance when subjected to bending deformation with radius reduced to 0.5 mm, indicating excellent mechanical flexibility and operation stability. Further, the output voltage and current can be rationally designed by multiple connections of MSC devices in series and parallel to fulfill the demands of various applications. This study provides a scalable and cost-effective method to produce solid-state MSCs with high energy density, which paves the way for their applications in potential wearable devices.
URI: http://dx.doi.org/10.1039/c9ta01460h
http://hdl.handle.net/11536/152188
ISSN: 2050-7488
DOI: 10.1039/c9ta01460h
期刊: JOURNAL OF MATERIALS CHEMISTRY A
Volume: 7
Issue: 20
起始頁: 12779
結束頁: 12789
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