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A zinc oxide quantum dot (ZnO QD) texturing layer was printed on a SiO 2 surface to resolve the issue of ink drop aggregation during inkjet printing tungsten oxide precursor (WO 3 Pr) ink, made from ultrasonicating ammonium metatungstate [(NH 3 ) 6 H 2 W 12 O 40 ] in a mixture of Dimethylformamide and water, for high-performance ultraviolet (UV) WO 3 photoconductors. It was found that the ZnO QD textured surface offers a pinning effect of the WO 3 Pr ink and hence prevents the ink from aggregating and coagulating into large droplets, which prohibits formation of uniform WO 3 Pr films on hydrophobic SiO 2 /Si or glass substrates. With the ZnO QD texturing layer, a uniform WO 3 film can be obtained when printing WO 3 Pr at room-temperature (22 °C), which reduced cracks and eliminated the coffee ring effect that arises when printing at elevated temperature such as 50 °C. High crystallinity was confirmed on the printed WO 3 films, which leads to UV photoresponsivity up to 16.6 mA/W, which is comparable with the best reported on printed WO 3 UV detectors without a ZnO QD texturing layer. This result shows surface texturing using a pre-printed QD layer provides a facile and compatible approach in controlling inkjet printing for high-quality oxide films directly from precursor solutions.