Transfer printing is a powerful technique for the quick and cost-effective creation of micro-structured patterns from various electronic materials. However, the production of the required stamps is often costly and time-consuming. In this study, we demonstrate how such a stamp can be custom designed and quickly made from a polyurethane-based resin by three-dimensional vat photopolymerization. A stamp featuring an array of 204 by 512 µm sized pixels was reproduced with a high dimensional accuracy of ±0.25% and successfully applied in transfer printing of a quantum dot (QD) material with electroluminescent properties. Due to the working principle of the printer used, both the stamp and the print image obtained had a characteristic yet homogeneous raster pattern. The insights gained will be useful in the additive manufacturing of tools for use in printing electronic devices.