Bonn, North Rhine-Westphalia, Germany
My career is built around one central theme: translating complex science into understanding and impact. Whether it is explaining lab workflows to commercial teams, demystifying multifunctional bioanalyzers for users or analyzing biological data and putting it into context, I excel at bridging the gap between complex science and real-world applications. The foundation of my professional career is more than a decade of hands-on, international research at institutions like UC Berkeley and the University of Münster. From experimental design and molecular methods, model organisms to cell culture, developmental neurogenetics to antibody development, microscopy to flow cytometry and PCR to CRISPR-Cas9, I gained a fundamental understanding of the scientific process, from hypothesis to experiment to publication. Over time, I realized that communicating science effectively is as important as doing it. That insight led me toward roles where I could explain complex workflows, train diverse audiences, and translate technical data into actionable knowledge. Today, that same passion drives my work at the interface of biology, data, and AI. Recognizing the growing convergence of life sciences and computational tools, I have expanded my skill set to include bioinformatics and data science. With a solid foundation in Python, R, SQL, and NGS data analysis, I focus on transforming raw biological information into structured, meaningful formats - the kind that both humans and machine-learning models can understand. I am particularly interested in roles that involve preparing and curating biological datasets for AI training, developing workflows that make biological knowledge more accessible to large language models, and exploring how AI can help us solve complex questions in biology. At heart, I am a scientific translator - connecting people, data, and technologies to help biology speak a universal language. I am motivated by curiosity, collaboration, and the belief that science and technology can drive meaningful and sustainable societal progress.
As a Field Clinical Engineer I play a key role in supporting the planning and programming of surgical procedures involving EASEE® while providing expert on-site consultation during operations. I ensure seamless onboarding, certification, and ongoing support of distributor partners across the International Region, and collaborate closely with Medical Affairs to drive study and registry activities. By guiding medical partners and OR teams in the proper use of EASEE®therapies and safeguarding adherence to defined clinical procedure requirements, you help maintain high clinical standards. The role also includes managing relationships with Key Opinion Leaders and Study Physicians, and maintaining close communication with Research & Development, Marketing, and Medical Affairs to support continuous improvement and successful therapy adoption.
Programming (Python), Bioinformatics and Databases (SQL), Applied Bioinformatics. Applied Biostatistics (R), Next-Generation Sequencing
Parental Break
A seminar to increase my expertise and acquire skills and refine skills in economics and project management.