As a microfluidic system developer with over seven years of experience, I specialize in creating integrated platforms that seamlessly combine fluidic, electrical, optical, mechanical, and software components for life-sciences research and development.
Having completed my PhD at ETH Zurich under Prof. Andrew deMello, I have developed novel high-throughput microfluidic platforms for applications in enzyme evolution, immune-cell screening and in-vitro diagnostics. This involved designing new platforms, measuring key‑performance parameters, and utilizing the complete systems to screen new enzyme libraries or assays. Through all the projects, I have acquired skills in system integration, device design, microtechnology, spectroscopy, imaging, laser optics and software, allowing me to understand both issues and potential solutions on a system‑wide level.
Previously, I worked as a Hardware Engineer in the networking industry, responsible for delivering a high-quality hardware from concept. My work revolved around designing and extensively testing high-speed PCBs serving as peripheral interface cards for core-routers.
I have a proven track record of working collaboratively, training students and leading interdisciplinary projects in both academic and industry settings. Additionally, my experience in the non-profit and event organization sectors highlights my strong communication and leadership abilities.
My experience in various fields of engineering, love for collaborative work and a penchant for delivering high-quality devices makes me an ideal candidate for small to medium-sized companies trying to build a new product from the scratch.
"I strive to bring people together and solve meaningful problems for humanity."
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