This two-year MEng leverages Harvard’s Wyss Institute and SEAS wet-/dry-lab synergy to train innovators who program cells, print organs, and design wearable diagnostics. Students master molecular-biology toolkits and microfluidics, then commercialize prototypes in the Pagliuca Life Lab incubator. Industry residencies position graduates to launch biotech ventures or lead R&D at med-tech giants.
Programmable probiotic secreting insulin in response to glucose
Organs-on-chip platform modeling neuro-immune crosstalk
Paper-based CRISPR test detecting rising zoonotic viruses
Self-healing living material 3-D-printed with bacterial cellulose
Soft exosuit with biosensing feedback for stroke rehab
Circular-bioeconomy plastic up-cycling via engineered yeast
AI-guided protein design for low-cost vaccines
Biophotonic tattoo monitoring dehydration in athletes
Microfluidic sperm-sorting chip improving IVF success
Capstone on regulatory roadmap for lab-grown meat
Ethics white paper on human-microbiome editing
Open-source bioreactor kit for high-school classrooms
Wearable sweat patch diagnosing cystic fibrosis
Point-of-care sepsis detector using aptamer sensors
Microalgae photobioreactor capturing industrial CO₂
Podcast spotlighting bio-foundry automation innovations
Database of open genetic-part designs for climate tech
Business plan for decentralized vaccine manufacturing
Fuse biology and engineering to create transformative biotech solutions.
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