%V 16 %I Elsevier Ltd %A R. Bashiri %A N.M. Mohamed %A S. Sufian %A C.F. Kait %T Improved photoelectrochemical hydrogen production over decorated titania with copper and nickel oxides by optimizing the photoanode and reaction characteristics %X We optimized photocatalytic hydrogen production over TiO2-based photocatalyst by varying the dopant (nickel and copper oxide), thin film active area, nature and concentration of sacrificial agents, and light intensity in a photoelectrochemical (PEC) cell/dye-sensitized solar cell (DSSC). Various characterization techniques have been used to investigate the structural, morphological, optical, and PEC behavior of single and codoped TiO2. The TiO2 decorated with both Cu and Ni oxides with active area of 1 cm2 in a mixture of 5 vol glycerol and 1 M KOH under light intensity of 100 mWcm�2 produced the maximum hydrogen of 338.4 μmol cm�2 for 2 h. The superior photocatalyst performance of this photocatalyst is attributed to its small crystallite size and large pore size, as confirmed by X-ray diffractometer, Transmission electron microscopy (TEM), and surface area of Brunauer-Emmet-Teller (SBET). The absorption edges of this photocatalyst had the highest red shift compared with single doped and pure TiO2 because of more indirect transitions of the photoexcited electrons, greater charge carrier separation, and lower recombination rate. The photoanode active area of 1 cm2 with better photocatalytic performance correlated with the number of defects and grain boundaries. Glycerol shifted the conduction band of the photocatalyst to more negative flat potential compared with others. Increasing the concentration of glycerol further than 5 vol saturated the photocatalyst active sites, increased photooxidation intermediates of glycerol, and reduced the hydrogen production. The light intensity had the maximum impact on the hydrogen production and could strongly control the number of charge carriers in both the PEC cell and the DSSC. © 2020 Elsevier Ltd %K Charge carriers; Copper oxides; Crystallite size; Dye-sensitized solar cells; Glycerol; Grain boundaries; High resolution transmission electron microscopy; Nickel oxide; Photoelectrochemical cells; Photooxidation; Pore size; Potassium hydroxide; Red Shift; Solar power generation; Titanium dioxide, Characterization techniques; Light intensity; Ni oxide; Photocatalytic hydrogen production; Photocatalytic performance; Photoelectrochemical hydrogen production; TiO2; TiO2-based photocatalysts, Hydrogen production %J Materials Today Chemistry %L scholars13129 %O cited By 14 %R 10.1016/j.mtchem.2020.100241 %D 2020