I help research labs and early-stage biotechnology teams design, evaluate, and de-risk bioelectronic and electromagnetic sensing systems — where signal quality, physical limits, and biological reality matter.
My work sits at the intersection of electromagnetics, electrophysiology, and bioelectronic interfaces, bridging theory and practical implementation.
I bring:
⦁ A foundation in electrical engineering and electromagnetic materials
⦁ Doctoral training in biomedical engineering and electrophysiology
⦁ Hands-on experience across cardiac and neural systems
⦁ A systems-level approach that respects both physics and biology
My role is not to oversell ideas — it is to make them work, or clearly explain why they won’t.
Biomedical engineering consulting that transforms ideas into successful innovations. We focus on bridging theory with practical applications.
If you are:
⦁ Struggling with signal quality or reproducibility
⦁ Unsure whether a sensing approach is feasible
⦁ Planning a complex bioelectronic or neurotechnology system
I’m happy to discuss whether a short technical engagement would be useful.
