Koye trained as an Electronics Engineer and focused on building ML models for computer vision. He then went on to scale commercial strategy at Bain and developed new products on Microsoft's cloud
Dr. Matas Petreikis
Head of Electronics
Matas has researched into In-Vitro biosensing for 5+ years at Cambridge and then University College London, where he completed his PhD. He previously developed wearable sensors to monitor tissue injuries.
Dr. Molly Parry
Lead Research Chemist
Molly spent her MRes and PhD. at the cutting-edge of synthetic polymer chemistry at Imperial. Her previous work involved designing self-degrading polymer for better environmental outcomes.
Founding Team
Scientific Advisory Board
Koye Sodipo
Co-founder & CEO
Koye trained as an Electronics Engineer and focused on building ML models for computer vision. He then went on to scale commercial strategy at Bain and developed new products on Microsoft's cloud
Dr. Matas Petreikis
Head of Electronics
Matas has researched into In-Vitro biosensing for 5+ years at Cambridge and then University College London, where he completed his PhD. He previously developed wearable sensors to monitor tissue injuries.
Dr. Molly Parry
Lead Research Chemist
Molly spent her MRes and PhD. at the cutting-edge of synthetic polymer chemistry at Imperial. Her previous work involved designing self-degrading polymer for better environmental outcomes.
Founding Team
Scientific Advisory Board
Koye Sodipo
Co-founder & CEO
Koye trained as an Electronics Engineer and focused on building ML models for computer vision. He then went on to scale commercial strategy at Bain and developed new products on Microsoft's cloud
Dr. Matas Petreikis
Head of Electronics
Matas has researched into In-Vitro biosensing for 5+ years at Cambridge and then University College London, where he completed his PhD. He previously developed wearable sensors to monitor tissue injuries.
Dr. Molly Parry
Lead Research Chemist
Molly spent her MRes and PhD. at the cutting-edge of synthetic polymer chemistry at Imperial. Her previous work involved designing self-degrading polymer for better environmental outcomes.
