A cellulose fibers-supported hierarchical forest-like cuprous oxide/copper array architecture as a flexible and free-standing electrode for symmetric supercapacitors
2017
Wan, Caichao | Jiao, Yue | Li, Jian
Herein, we for the first time develop two facile and fast steps (including magnetron sputtering and electro-oxidation) to grow a hierarchical forest-like Cu₂O/Cu array architecture onto the three-dimensional fiber framework of cellulose paper. The Cu rods serve as the trunk and the oxidation product (Cu₂O) acts as branches. When utilized as a flexible and free-standing electrode, the unique architecture made full use of a large interfacial area from the hierarchical multi-scale structure of the forest-like array, numerous channels for rapid diffusion of electrolyte ions from the porous fiber skeleton of hydrophilic cellulose paper, and fast electron transport and high electrochemical activity from the Cu₂O/Cu complex. These merits endowed the electrode with a high specific capacitance of 915 F g⁻¹ (238 mF cm⁻²) at 3.8 A g⁻¹, a large specific energy of 53.7 W h kg⁻¹ at 1.25 kW kg⁻¹, superior rate capability, and excellent cycling stability with a capacitance retention of 91.7% after cycling 10 000 times. More importantly, an easy interesting strategy was proposed to assemble a symmetric supercapacitor based on the Cu₂O/Cu/cellulose hybrid paper, that is, growing the forest-like Cu₂O/Cu array onto the two surfaces of cellulose paper. The device delivered a high specific capacitance of 409 F g⁻¹ (213 mF cm⁻²) at 1.9 A g⁻¹, a superior specific energy of 24.0 W h kg⁻¹ at 0.625 kW kg⁻¹ and good cycling stability (90.2% capacitance retention after 10 000 cycles). These fascinating results unveil the potential of the hybrid paper as a high-performance electrode material for flexible energy storage devices and portable electronics.
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Эту запись предоставил National Agricultural Library