Highly Efficient Energy Storage and Conversion Devices based on CO2 Utilization
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±è°ÇÅ UNIST Atmospheric carbon dioxide (CO2) has increased from 278 to 415 parts per million (ppm) over the industrial period and has critically impacted climate change. In response to this crisis, carbon capture, utilization, and storage/sequestration technologies have been studied. So far, however, the economic feasibility of the existing conversion technologies is still inadequate owing to sluggish CO2 conversion. Herein, we report an aqueous zinc- and aluminum-CO2 system that utilizes acidity from spontaneous dissolution of CO2 in aqueous solution to generate electrical energy and hydrogen (H2). The system has a positively shifted onset potential of hydrogen evolution reaction (HER) by 0.4 V compared to a typical HER under alkaline conditions and facile HER kinetics with low Tafel slope of 34 mV dec-1. The Al-CO2 system has a maximum power density of 125 mW cm-2 which is the highest value among CO2 utilization electrochemical system. Theoretically, in 10 kW-scale metal-CO2 system, the 10,000 L (about 1 kg H2) of hydrogen (H2) gas could be produced and 30 kg of CO2 could be removed per hour, respectively. |