Ti (0~1 at.%), Ga (2 at.%) co-doped ZnO (TGZO) thin films prepared on glass substrates by sol-gel method combined with spin-coating and their microstructure, optical, electrical and photo-electrochemical properties were investigated. Photo-electrochemical experiments were conducted in a standard three-electrode cell filled with 0.5 M Na_2SO_4 solution. Co-doping of Ti and Ga in ZnO thin films was dedicated to modulate the energy gap and carrier concentration for their demand of application in TFT devices and photo electrochemical devices. XRD results showed that all the films belonged to polycrystalline hexagonal wurtzite structure with a preferred orientation along the c-axis, (002), perpendicular to the substrate. With increasing the concentration of Ti-dopant from 0.0 to 1.0 at.%, the films inclined to slight refinement in grain size from 16 to 13 nm. The optical transmittance of the films was excellent (i.e. over 85%) and their band gaps were evaluated to be in the range from 3.32 to 3.27 eV. According to the measurements resultant from I-V (current-voltage) diagrams of Schottky contact and photo electrochemical cell, the film co-doped with 1.0 at. % revealed the highest photo electrochemical current because of the carriers were facilitated to excitation from the valence band to the conduction band.