Journal
SMALL
Volume 13, Issue 5, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/smll.201602742
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Funding
- National Natural Science Foundation of China [51502263]
- Program for Innovative Research Team in University of Ministry of Education of China [IRT13037]
- Key Science and Technology Innovation Team of Zhejiang Province [2010R50013]
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Customized electrode materials with good temperature adaptability and high-rate capability are critical to the development of wide-temperature power sources. Herein, high-quality TiC nanowires are uniformly grown on flexible carbon cloth as free-standing electric-double-layer supercapacitor electrode. The TiC nanowires, 20-40 nm wide and 3-6 mu m long, are single-crystalline and highly conductive that is close to typical metal. Symmetric supercapacitors are constructed with ionic liquid electrolyte and TiC nanowires electrodes as wide-temperature and long-cycle stable power source. Ultrastable high-rate cycling life of TiC nanowire arrays electrodes is demonstrated with capacitance retention of 96.8% at 60 degrees C (approximate to 440 F g(-1)), 99% at 25 degrees C (approximate to 400 F g(-1)), and 98% at -25 degrees C (approximate to 240 F g(-1)) after 50 000 cycles at 10 A g(-1). Moreover, due to high electrical conductivity, the TiC nanowire arrays show ultrafast energy release with a fast response time constant of approximate to 0.7 ms. The results demonstrate the viability of metal carbide nanostructures as wide-temperature, robust electrode materials for high-rate and ultrastable supercapacitors.
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