While automated modules for F‐18 and C‐11 radiosyntheses are standardized with features such as multiple reactors, vacuum connection and semi‐preparative HPLC, labeling and processing of compounds with radiometals such as Zr‐89, Lu‐177 and Ac‐225 often do not require complex manipulations and are frequently performed manually by a radiochemist. These procedures typically involve transferring solutions to and from vials using pipettes followed by heating of the reaction mixture, and do not require all the features found in most commercial automated synthesis units marketed as F‐18 or C‐11 modules. Here we present an efficient automated method for performing radiosyntheses involving radiometals by adapting a commercially available robotic pipettor originally developed for high‐throughput processing of biological samples. While a robotic pipettor is less costly than a radiosynthesis module, it holds many similar advantages over manual radiosynthesis such as minimization of operator error, lower operator exposure rates, and abbreviated synthesis times, among others. To demonstrate the feasibility of using the OpenTrons OT‐2 robotic pipettor to perform automated radiosyntheses, we radiolabeled and formulated 177Lu‐PSMA‐617 and 225Ac‐PSMA‐617 on the system. The OT‐2 was then used to help streamline the quality control process for both products, further minimizing manual handling by and exposure to the radiochemist.