Nanoporous TiO2 films are sintered by atmospheric pressure plasma jets. From absorption spectra, a 30-second APPJ-sintered TiO2 layer presents extra absorption band between 400 and 500 nm due to the incomplete removal of organic solvents in the pastes. As the sintering time reaches 60 sec and beyond, the absorption spectra of APPJ-sintered TiO2 are almost identical to that of the furnace-sintered one. The crystallinity and surface morphology of APPJ-sintered TiO2 are similar to that of furnace-sintered sample, confirmed by SEM and XRD experiments. The TiO2 photoanode with 30 sec treatment exhibits poor power conversion efficiency, attributing to the organic residues in the films. The efficiency for DSSC with APPJ-sintered TiO2 becomes comparable to that with conventional furnace-sintered photoanode when APPJ treatment time reaches 60 sec and beyond. Electrochemical impedance spectroscopy (EIS) also shows that the DSSC with 30 sec APPJ-sintered TiO2 photoanode has an extremely large TiO2/dye/electrolyte electron transport interfacial resistance and a short carrier lifetime. Our experimental results demonstrate that a 60-second APPJ sintering process is sufficient to replace the conventional 510°C×15min furnace-sintering process for TiO2 photoanodes of DSSCs.