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The fast development of supercapacitors inspires a growing interest in inexpensive super-capacitive electrode material with high performance. Herein, we develop a Rone step method for preparing Cu3P nanocrystals by direct… Click to show full abstract
The fast development of supercapacitors inspires a growing interest in inexpensive super-capacitive electrode material with high performance. Herein, we develop a Rone step method for preparing Cu3P nanocrystals by direct low-temperature phosphorization treatment of commercial copper powder. As a super-capacitive electrode material, for the first time, Cu3P nanocrystals exhibit outstanding electrochemical rate performance (318.5 F g−1 at 400 mV s−1; 169.2 F g−1 at 50 A g−1) and excellent cycling stability with no loss of specific capacitance at 10 A g−1 for 10,000 cycles. The presented synthesis method opens up a facile and large-scale approach to explore high-performance and low-cost Cu3P electrodes for supercapacitors.
Journal Title: Ionics
Year Published: 2017
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