Increase in Photocurrent Density of WO 3 Photoanode by Placing a Layer of an Ordered Array of Mesoporous WO 3 Micropillars on Top of a WO 3 Sheet Layer.

A facile stamping method was developed to assemble ordered arrays of mesoporous WO 3 micropillars with uniform sizes, shapes, and lengths on F-doped tin oxide glass. Using this method, a series of WO 3 heterostructural bilayer photoanodes consisting of an array of m -μm long ordered mesoporous WO 3 micropillars at the top and the n -μm thick mesoporous WO 3 plain sheet layer at the bottom (denoted as m/n ) were prepared. Among them 2.5/7.5 displayed a steady state photocurrent density of 3.6 mA cm -2 at 1.23 V (vs RHE) under AM 1.5 (1 Sun), which is much higher than that of the plain 10-μm thick WO 3 sheet (2.5 mA cm -2 ). This phenomenon occurs owing to the following six benefits: increases in charge carrier density, number of photogenerated electron, charge collection rate, thermodynamic feasibility for the vectorial charge transport from the outermost layer of the photoanode to the inner layer, the surface hydrophilicity, and the decrease in charge transfer resistance.