A photo-assisted microbial electrolysis cell for the exclusive biohydrogen production using a MoS2-coated p-type copper oxide

Abstract A microbial electrolysis cell (MEC) has been regarded as an emerging new technology for the biohydrogen production from various organic substances, even from wastewater. One major problem is, however, that methane dominates produced gases in a long-term operation. Here we report that a photo-assisted MEC (PAMEC) is an efficient way to produce hydrogen with a p-type semiconductor cathode. When Cu 2 O coated with MoS 2 as cocatalyst (MoS 2 /Cu 2 O) is employed, only hydrogen with essentially no methane and carbon dioxide was produced from acetate at −0.8 V bias under visible light illumination at a rate of 2.72 m 3 H 2 m −3 d −1 . No appreciable performance degradation is observed over 50 days of operation. At lower bias voltage, methane and carbon dioxide begins to be produced. Energy efficiency based on input electricity and hydrogen yield are 225% and 3.4, respectively. This excellent feature of PAMEC is attributed to p-type semiconductor characteristics of Cu 2 O and proton reduction activity of MoS 2 . Electrons generated from acetate oxidation at the anode are photoexcited to the conduction band at the Cu 2 O acquiring enough reduction potential to reduce protons. The concept of PAMEC can be extended to wastewater treatment for the hydrogen production.