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Issue 5, 2016
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Solar hydrogen production from seawater vapor electrolysis

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Solar photovoltaic utilities require large land areas to produce power equivalent to a conventional fossil fuel utility, and also must be coupled to cost-effective energy storage to overcome the intermittency of sunlight and provide reliable, continuous energy generation. To target both of these disadvantages, a method was demonstrated to produce hydrogen fuel from solar energy by splitting seawater vapor from ambient humidity at near-surface ocean conditions. Using a proton exchange membrane electrolyzer with seawater-humidified air at 80% relative humidity at the anode and dry N2 at the cathode, sufficient electrolysis current density was maintained to operate near the maximum energy-conversion point when driven by a triple-junction amorphous Si solar cell of equivalent area. Fluctuations in atmospheric water content were demonstrated to have minimal effect on the solar-to-hydrogen efficiency, remaining ∼6% with relative humidity ≥30%. Direct solar-driven H2 production from seawater vapor was maintained at >4.5 mA cm−2 for >90 hours. The calculated solar-to-hydrogen conversion efficiency before and after 50 h of operation changed from 6.0% to 6.3% using an ambient seawater humidity feedstock as compared to a drop from 6.6% to 0.5% using liquid seawater feedstock.

Graphical abstract: Solar hydrogen production from seawater vapor electrolysis

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Publication details

The article was received on 24 Nov 2015, accepted on 09 Mar 2016 and first published on 10 Mar 2016

Article type: Paper
DOI: 10.1039/C5EE03568F
Citation: Energy Environ. Sci., 2016,9, 1725-1733
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    Solar hydrogen production from seawater vapor electrolysis

    S. Kumari, R. Turner White, B. Kumar and J. M. Spurgeon, Energy Environ. Sci., 2016, 9, 1725
    DOI: 10.1039/C5EE03568F

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