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Honeycomb micro/nano-architecture of stable β-NiMoO4 electrode/catalyst for sustainable energy storage and conversion devices

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Abstract Multi-functionality is a highly desirable feature in designing new electrode material for both energy storage and conversion devices. Here, we report a well-integrated and stable β-NiMoO4 that was fabricated… Click to show full abstract

Abstract Multi-functionality is a highly desirable feature in designing new electrode material for both energy storage and conversion devices. Here, we report a well-integrated and stable β-NiMoO4 that was fabricated on three dimensional (3D) nickel foam (NF) by a simple hydrothermal approach. The obtained β-NiMoO4 with interesting honeycomb like interconnected nanosheet microstructure leads to excellent electrochemical activity. As an electrode for Supercapatteries, β-NiMoO4–NF showed a high specific capacity of 178.2 mA h g−1 (916.4 F g−1) at 5 mA cm−2 current density. Most importantly, the fabricated symmetric device exhibits a maximum specific energy of 35.8 W h kg−1 with the power output of 981.56 W kg-1 and excellent cyclic stability. In methanol electro-oxidation, the β-NiMoO4 –NF catalyst deliver the high current density of 41.8 mA cm−2 and much lower onset potential of 0.29 V with admirable long term stability. Apart from the above electrochemical activity, the β-NiMoO4 –NF honeycomb microstructure demonstrates a promising non-noble electrocatalyst for oxygen evolution reaction (OER) and hydrogen evolution reaction (HER) and showed a considerable overpotential of 351 mV (OER) and 238 mV (HER). The attractive multifunctional electrochemical activity of β-NiMoO4–NF could be originates from their unique honeycomb micro/nano structure which can acts as an “ion reservoir” and thus leads to superior energy storage and conversion processes.

Keywords: storage conversion; conversion devices; energy storage; energy

Journal Title: International Journal of Hydrogen Energy
Year Published: 2020

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