MycoWorks | An Interview with AI | Pi Artificial Intelligence Explains Mycelium & Biotech @MycoWorks | Uploaded June 2024 | Updated October 2024, 7 hours ago.
We're back! In this unusual episode, we sit down with a different kind of guest... artificial intelligence.
Join us as we chat with Pi AI about the amazing properties of mycelium, its role in the ecosystem, and the innovative ways it is being used in fields such as biotechnology. Whether you're a mycology enthusiast or simply curious about the cutting-edge of biotechnology, you won't want to miss this enlightening conversation.
In this episode:
0:00 Episode introduction
03:00 AI's role in transforming biotech & medicine
05:00 Explaining biotech to a 5 year old
07:30 The word "mycelium" in modern culture
10:00 Why biotech is gaining popularity
15:00 Predicting the future of biotech textiles
See more at mycoworks.com
đ§ Listen & subscribe to our podcast: mycoworks.buzzsprout.com
Join us on our journey to Grow the Future of Materials:
mycoworks.com/careers
Learn more about MycoWorks: mycoworks.com
Get closer to Reishiâ˘: madewithreishi.com
Follow us on Instagram: instagram.com/mycoworks
Twitter: twitter.com/MycoWorksInc
LinkedIn: linkedin.com/company/mycoworks
#MycoWorks #FineMycelium #MadeWithReishi
About Reishiâ˘
Our pioneering product, Reishiâ˘, is Fine Mycelium⢠finely tuned and finished to the highest standards for leather. The world's first made-to-order, natural material offering unprecedented performance and freedom to customize.
About Fine Myceliumâ˘
Our proprietary technology that engineers mycelium during growth to enable a new class of premium, non-animal, tunable materials that compare in quality and performance to the finest animal leathers. The next evolution in natural materials.
About MycoWorks
In 2013, co-founders Philip Ross and Sophia Wang formed MycoWorks, a San Francisco-based biomaterials company dedicated to bringing new mycelium materials to the world. MycoWorksâ patented Fine Mycelium technology, an advanced manufacturing platform and breakthrough in materials science, engineers mycelium during growth to form proprietary, interlocking cellular structures for unparalleled strength and durability.
We're back! In this unusual episode, we sit down with a different kind of guest... artificial intelligence.
Join us as we chat with Pi AI about the amazing properties of mycelium, its role in the ecosystem, and the innovative ways it is being used in fields such as biotechnology. Whether you're a mycology enthusiast or simply curious about the cutting-edge of biotechnology, you won't want to miss this enlightening conversation.
In this episode:
0:00 Episode introduction
03:00 AI's role in transforming biotech & medicine
05:00 Explaining biotech to a 5 year old
07:30 The word "mycelium" in modern culture
10:00 Why biotech is gaining popularity
15:00 Predicting the future of biotech textiles
See more at mycoworks.com
đ§ Listen & subscribe to our podcast: mycoworks.buzzsprout.com
Join us on our journey to Grow the Future of Materials:
mycoworks.com/careers
Learn more about MycoWorks: mycoworks.com
Get closer to Reishiâ˘: madewithreishi.com
Follow us on Instagram: instagram.com/mycoworks
Twitter: twitter.com/MycoWorksInc
LinkedIn: linkedin.com/company/mycoworks
#MycoWorks #FineMycelium #MadeWithReishi
About Reishiâ˘
Our pioneering product, Reishiâ˘, is Fine Mycelium⢠finely tuned and finished to the highest standards for leather. The world's first made-to-order, natural material offering unprecedented performance and freedom to customize.
About Fine Myceliumâ˘
Our proprietary technology that engineers mycelium during growth to enable a new class of premium, non-animal, tunable materials that compare in quality and performance to the finest animal leathers. The next evolution in natural materials.
About MycoWorks
In 2013, co-founders Philip Ross and Sophia Wang formed MycoWorks, a San Francisco-based biomaterials company dedicated to bringing new mycelium materials to the world. MycoWorksâ patented Fine Mycelium technology, an advanced manufacturing platform and breakthrough in materials science, engineers mycelium during growth to form proprietary, interlocking cellular structures for unparalleled strength and durability.