Highly Efficient CdS/WO3 Photocatalysts: Z-Scheme Photocatalytic Mechanism for Their Enhanced Photocatalytic H2 Evolution under Visible Light

Natural photosynthesis is usually recognized as an efficient mechanism to achieve solar energy conversion. We construct a CdS/WO3 nanojunction achieving a Z-scheme for clean hydrogen fuel evolution by 6 mimicking the natural photosynthesis. Although WO3 alone cannot be used for H2 evolution from water splitting, it can significantly increase the H-2 evolution & activity of CdS through a Z-scheme mechanism with lactate as electron donor. I The CdS/WO3 photocatalyst has a high H-2 evolution rate of 369 mu mol g(-1) h(-1) at a CdS concentration of 20 wt %, which is 5 times as high as that of CdS with it lactic acid as electron donor. For further improving the hydrogen production rate, we introduce the noble metal Pt to ameliorate the charge transport between CdS and WO3. Good H-2 evolution rates up to 2900 mu mol g(-1) h(-1) were obtained with WPC3, which is about 7.9 times the rate of WC20 with visible radiation. The interesting thing is that the photocatalytic mechanism of CdS/WO3 is different from the previously reported mechanism. The results of TPV (transient photovoltage) and SPV (surface photovoltage) indicate that the Z-scheme system of CdS/WO3 can effectively promote charge separation and depress the charges recombining of photogenerated charge in CdS, based on the Z-scheme mechanism, resulting in efficient H-2 production activity under visible light.