Biography
I specialize in the architecture of polymeric foams. As a PhD researcher at the Institute of Physical Chemistry, I operate at the interesting intersection of microfluidics, materials science, and 3D printing. My expertise lies in engineering functional polymer foams designed for superior energy absorption—transforming complex physical principles into tangible, high-performance materials.My technical core is rooted in precision engineering, where I develop and optimize advanced printing systems for water-in-oil emulsions. Through advanced materials synthesis, I fine-tune monomer systems and assess their compatibility for diverse industrial applications. I view myself as a technical translator, turning laboratory concepts into scalable technology. I thrive on the challenge of bridging the gap between fundamental physics and real-world engineering impact. Having contributed to peer-reviewed literature and cross-disciplinary projects, I am now focused on transitioning into roles where science-driven innovation is the primary engine of growth. Outside the lab, I value the discipline of the gym, the perspective found on a hiking trail, and the quiet focus of reading. I believe that a deliberate reset is the key to sustained innovation, allowing me to tackle challenges with clarity and a high-performance mindset.
Published with us
Modular biofabrication of a vascularized skeletal muscle model through endothelialized microvascular seeds
bioRxiv • 2026
3D bioprinting in tissue engineering: current state-of-the-art and challenges towards system standardization and clinical translation
Biofabrication • 2025