Journal
ENERGY & ENVIRONMENTAL SCIENCE
Volume 14, Issue 12, Pages 6349-6359Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1ee01879e
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Funding
- Worldwide Liquid Sunshine, LLC
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Ammonia is a crucial commodity chemical used in various industries, with traditional manufacturing processes consuming significant energy and emitting greenhouse gases. Solar-driven electrochemical synthesis of ammonia using nitrates presents a sustainable pathway for producing renewable fuels.
Ammonia is an essential commodity chemical used in the manufacture of fertilizers, pharmaceuticals, ammunition, and plastics, and is a promising alternative fuel source and carrier. Today most ammonia is manufactured by the century-old Haber-Bosch process, which accounts for 1-2% of worldwide energy production and a substantial fraction of global greenhouse gas emissions. Solar-driven electrochemical synthesis of ammonia using nitrates presents a sustainable pathway to produce renewable fuels utilizing wastewater. Previous efforts in solar-driven electrosynthesis of ammonia have been seriously affected by lower specific activity (<10 mA cm(-2)) of electrochemical nitrate reduction reaction (NiRR) and thereby lower solar-to-fuel (STF) efficiency (<1%). Here, we show oxide-derived Co as an efficient NiRR catalyst with the highest specific activity (similar to 14.56 mA cm(-2) at -0.8 V vs. RHE) and selectivity. The oxide-derived Co offers a maximum faradaic efficiency of 92.37 +/- 6.7% and ammonia current density of 565.26 mA cm(-2) at -0.8 V vs. RHE. Integrating this catalyst in a PV-electrolyzer cell yields an unprecedented STF efficiency of 11% for ammonia, which is an order of magnitude higher than state-of-the-art systems.
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