We detect the invisible. Our artificial nose identifies volatile organic compounds (VOCs) — the molecules that carry scent — using engineered proteins and cutting-edge electronics.
Engineered proteins now bind VOCs with high precision and scalability for detection.
Protein structure modeling accelerates biosensor design dramatically for better sensors.
FETs translate molecular events directly into electrical signals for precise detection.
Miniature cloud-connected sensors make real-time analysis possible from anywhere.
Every living thing emits a unique pattern of VOCs — from ripening fruit to harmful bacteria. Our platform uses specially designed proteins that selectively bind to these molecules. These proteins are mounted on ultra-sensitive electronic chips called field-effect transistors (FETs), which convert these interactions into readable signals.
Scenti.ai is in the R&D phase. We are exploring use cases across healthcare, food safety, and environmental monitoring. Our vision is to create a universal sensing platform — powered by nature's own detection tools, reimagined through science.