Introducing phosphoric acid to fluorinated polyimide towards high performance laser induced graphene electrodes for high energy micro-supercapacitors

聚酰亚胺 超级电容器 石墨烯 磷酸 材料科学 电极 激光器 光电子学 复合材料 纳米技术 电容 化学 图层(电子) 光学 冶金 物理 物理化学
作者
Yi Zhao,Wenjing Qiao,Haozhe Wang,Yangyang Xie,Botao Teng,Jiongru Li,Yunlong Sun,Abdullah Saad Alsubaie,Tong Wan,Salah M. El‐Bahy,Dapeng Cui,Zeinhom M. El‐Bahy,Jing Zhang,Huige Wei,Zhanhu Guo
出处
期刊:Carbon [Elsevier BV]
卷期号:230: 119665-119665 被引量:36
标识
DOI:10.1016/j.carbon.2024.119665
摘要

Micro-supercapacitors (MSCs) have wide application prospects in microelectronic fields such as wearable electronics due to merits of stable performance, high safety and easy integration. However, the relatively low energy density of MSCs limits their practical application. In this context, phosphorus and fluorine co-doped laser-induced graphene (FP-LIG) microelectrodes were fabricated from fluorinated polyimide containing phosphoric acid by laser direct writing (LDW) method. The introduced phosphoric acid slows down the decomposition of –CF 3 during the LDW process, resulting in much more ordered and stable pores; meanwhile, phosphorus entered the graphene lattice to replace some carbon atoms, forming a C 3 PO structure, which not only stabilizes the interface between the electrode and the electrolyte and therefore achieves an enlarged working potential of 1.4 V, but also increases the wettability of the electrode. Using FP-3-LIG microelectrodes and PVA/H 2 SO 4 as the gel electrolyte, the assembled FP-3-MSC demonstrates significantly enhanced energy density, delivering an energy density of 10.40 μWh cm −2 (@0.09 mA cm −2 ), 2.7 times that of F-MSC and 346.7 times that of MSC. FP-3-MSC has excellent cyclic stability, displaying an areal capacitance retention rate of above 90 % after 10,000 long cycles. In addition, FP-3-MSC demonstrates excellent flexibility, indicating promising potential in the field of flexible wearable electronics. • The phosphorus doping resulted in a more stable and ordered pore structure. • The formed C 3 PO structure increased the voltage window from 1.0 to 1.4 V. • The C 3 PO structure increased the wettability of FP-3-LIG. • FP-3-MSC exhibited significantly enhanced energy density (10.40 μWh cm -2 ).
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