The 3D Hierarchical Structure of ZnO@CdS Core-Shell Nanorods on WO 3 Nanoplates for High-Performance Hydrogen Production

Hydrogen evolution by water splitting is one of the easy and clean methods for generating energy that can solve the energy crisis in the near future. In this report, WO 3 nanoplates were treated with a chemical bath deposition (CBD) and hydrothermal (HM) sequentially to synthesize the ZnO@CdS core-shell nanorods (NRs) on the nanoplates. Prior to this, the sputtering process followed by HM has been involved to grow basic uniform WO 3 NPts onto the FTO substrate. To ensure the enhancement in the performance of the photoanode under solar light, the sputtered-grown Pt nanoparticles were used as the catalyst. The method measurements FESEM, HR-TEM, XRD, LSV, and conversion efficiency were used for the examination of the morphology and performance of the photoanodes. In an aqueous solution of 0.3 M Na 2 S and 0.2 M Na 2 SO 3 (pH ∼13.5), the linear sweep voltammetry (LSV) analysis shows a photocurrent density of 17.1 mA cm −2 at 0 V vs SCE and 6.1% of the efficiency of conversion energy at −0.5 V vs SCE of Pt/CdS@ZnO/WO 3 /FTO photoanode.