Abstract
β-AgVO3 nanorods have been successfully synthesized by a soft chemistry route, followed by calcination at different temperatures without templates. The crystallinity of the products increases with calcination temperatures. The β-AgVO3 nanorods fabricated at 400°C are very uniform and well-dispersed, with the diameter ranging from 70nm to 300nm, the length of which can be as long as several micrometres. The electrochemical measurements indicate that the β-AgVO3 nanorods deliver high initial discharge capacities at various current densities and shows good rate capability. The superior electrochemical properties of β-AgVO3 nanorods suggest they are promising cathode materials for implantable cardioverter defibrillators (ICDs).
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