Your mission We are looking for a talented R&D Test Engineer (m/f/d) for innovative fluidic system projects from concept design through optimization. In this role, you will combine hands-on laboratory work with design expertise to test various fluidic designs to optimize the process. If you have a passion for testing and optimizing designs and thriving in a collaborative, multidisciplinary environment, we’d love to hear from you. Responsibilities: Collaboration & Design: Work with other engineers and scientists to develop test instrument concepts based on the requirements of the device under test. Create P&IDs and instrument designs in collaboration with electrical and mechanical engineers. Work with automation engineers to define automation requirements, and test sequences. Prototype Development & Testing: Select and source suitable components and assemble the test instruments in collaboration with other engineers. Create and execute test plans, and analyze results to assess submodule performance, operating parameters and identify areas for improvement. Product Development & Technology Transfer & Support: Transfer knowledge and test results to the product development team and participate in design reviews. Review product submodule designs and advise on test protocols and instrumentation. Provide ongoing technical support and troubleshooting. Your profile Bachelor’s or Master’s degree in Mechanical Engineering, Biomedical Engineering, or a related field with a strong foundation in fluid mechanics. Few years of experience in designing and testing laboratory-scale fluidic systems, with a proven ability to bring systems from concept to reality. Strong troubleshooting skills for complex systems and subsystems. Knowledge of fluid dynamics, thermodynamics, and heat transfer. A proactive mindset and enthusiasm for pushing the boundaries of what's possible in fluidic system design and testing. Strong analytical problem-solving skills with a hands-on approach. Ability to analyze raw test data and produce a clear report summarizing findings and recommended next optimization steps. Self-motivated and capable of working independently, while also being a team player who enjoys collaborating with others in a multidisciplinary environment. Why us? Competitive compensation, based on base salary and stock options Key role in a highly advanced and fast-growing startup company Ample opportunity for personal initiatives, openness to new ideas and room for considerable personal impact Impactful product promoting better understanding and treatment of disease International and dynamic team, from over 20 different nationalities Enjoyable work atmosphere with an open-door and open communication mentality Permanent employment contract, providing stability and long-term career growth opportunities Onsite working model (Our offices and labs are located in Ulm, Germany) Annual health budget (Allianz bKV) EGYM Wellpass 30 vacation days Relocation support contact information Join us in making a difference Submit your application to be considered for this exciting opportunity. Any questions? Please contact: Emilija Stojanovska Sr. Talent Acquisition Manager mail: careers nvision-imaging.com Web: www.nvision-imaging.com About us NVision is a quantum biotech startup based in Ulm, Germany, with Tier 1 investors from the USA and Europe. We are just leaving stealth mode, moving from local R&D to global commercialization and expansion. We are developing a technology that will enable MRI-based imaging of real-time metabolism in the body, with tremendous potential for research and applications in oncology, cardiology, neurology and more. Our company brings together expertise in physics, chemistry, engineering and medicine, and we are collaborating with scientists and clinicians from top medical and research centers such as Memorial Sloan Kettering in New York, MD Anderson in Texas, Technical University of Munich, Cambridge University in the UK and more. NVision is developing fast, robust and easy-to-use hyperpolarization technology for preclinical and clinical research in our POLARIS product line. Those devices are placed close to an MRI scanner in a research or clinical environment to produce hyperpolarized contrast agents on demand in a fast, fully-automated, multi-step chemical process. Key steps of the process contain fluidic transport across multiple vessels and chemical mixing and separation processes in fully-reuseable or single-use disposable fluid paths. We develop our commercial products jointly with external design and manufacturing partners and the process development as well as the design and manufacturing of prototypes is done entirely in-house. We offer a dynamic international working environment, with immense room for growth, that encourages personal initiative and open communication.