Professor Pam Silver from Harvard Medical School joins us as a founding figure and legend in synthetic biology whose scientific path led from pioneering work on nuclear localization to co-developing the revolutionary "bionic leaf"—a system that combines artificial catalysts with bacteria to convert sunlight and CO2 into fuels and compounds at efficiencies far exceeding natural photosynthesis. Silver's perspective on synthetic biology's evolution from theoretical explorations to real-world app...
All content for The Climate Biotech Podcast is the property of Homeworld Collective and is served directly from their servers
with no modification, redirects, or rehosting. The podcast is not affiliated with or endorsed by Podjoint in any way.
Professor Pam Silver from Harvard Medical School joins us as a founding figure and legend in synthetic biology whose scientific path led from pioneering work on nuclear localization to co-developing the revolutionary "bionic leaf"—a system that combines artificial catalysts with bacteria to convert sunlight and CO2 into fuels and compounds at efficiencies far exceeding natural photosynthesis. Silver's perspective on synthetic biology's evolution from theoretical explorations to real-world app...
Solving for the P in NPK Fertilization Using Enzymes with Benjamin Scott
The Climate Biotech Podcast
40 minutes
6 months ago
Solving for the P in NPK Fertilization Using Enzymes with Benjamin Scott
The global food system has a phosphorus problem that few people talk about. Unlike nitrogen, which cycles naturally through our atmosphere, phosphorus is mined from finite deposits and has no natural cycle. A massive 100-kilometer conveyor belt—visible from space—transports phosphate-rich rock from the Sahara Desert to ships waiting to distribute this critical resource worldwide. Any disruption to this supply chain would threaten global agriculture, yet when phosphorus runs off fields, it cre...
The Climate Biotech Podcast
Professor Pam Silver from Harvard Medical School joins us as a founding figure and legend in synthetic biology whose scientific path led from pioneering work on nuclear localization to co-developing the revolutionary "bionic leaf"—a system that combines artificial catalysts with bacteria to convert sunlight and CO2 into fuels and compounds at efficiencies far exceeding natural photosynthesis. Silver's perspective on synthetic biology's evolution from theoretical explorations to real-world app...
