🎯 Key points for quick navigation: 00:00:00 *🎉 Introduction to Graphene* - The discussion introduces the significance of graphene, comparing it to aluminum's historical impact. - Highlights the potential transformative power of graphene. - Introduces the speakers and their connections to the graphene field. 00:03:10 *🧪 Understanding Graphene* - Provides a foundational understanding of graphene as a 2D super material. - Describes its unique properties like strength, conductivity, and applications. - Compares methods for producing graphene: top-down vs. bottom-up. 00:07:08 *⚡ Production Challenges and Innovations* - Discusses the challenges of scaling graphene production and its high cost. - Describes new methods being developed to produce graphene more efficiently. - Highlights significant efforts to lower production costs and achieve widespread industrial use. 00:14:14 *🌍 Global Graphene Market and Uses* - Examines the global market segmentation and present uses of graphene in various industries. - Emphasizes the potential for graphene to revolutionize areas like aviation, energy, and electronics. - Notes ongoing efforts to enhance graphene production and its industrial integration. 00:23:47 *🌐 Graphene's Strategic Importance and Challenges* - Describes potential immense economic impacts and demand for graphene-derived products. - Highlights current production limitations and strategies for scaling operations. - Discusses geopolitical aspects and implications for technology ecosystems. 00:23:59 *🇮🇱 Israeli Innovation and Personal Elements* - Introduces Ariel and his remote participation due to the ongoing conflict in Israel. - Personal note on the intersection of global events and innovation in science. 24:27 *🚀 Business Ventures and Graphene Innovation* - The speaker discusses founding a company focused on licensing technologies and building startups in advanced materials and biotechnology. - They highlight successes in creating companies that have become public or been sold, including partnerships with James Tour to form $2 billion worth of value. - A focus on graphene technology for mass markets was emphasized, showcasing Universal Matter's potential in various industries. 29:05 *🌟 Graphene's Potential Impact* - Graphene's incredible potential in various industries is mentioned, including concrete, asphalts, and AI. - The high volume of patents in graphene is highlighted, indicating significant industrial impact. - Predictions are made about increasing public awareness and understanding of graphene's benefits. 31:16 *📚 Scientific Paradigms and Technology* - Discussion on how graphene is a transformative force not just for industries but also the scientific field. - The cumulative role of technology in scientific advancements is emphasized, contrasting Thomas Kuhn's cyclical paradigms. - Predictions that graphene will shape future industry revolutions more heavily than AI or other technologies. 34:04 *🔬 Science Simplified by Graphene* - Graphene's superior properties such as high conductivity and heat resistance are explained. - It's seen as addressing existing problems faced in modern technology, offering new opportunities across various sectors. - Graphene's 2D properties and free electron movement simplify the physics of materials, offering transformative potential. 38:11 *🇮🇱 Investment and Startup Ecosystem* - Discussion on the culture of innovation in Israel and its influence on graphene companies. - Collaboration with James Tour led to many successful startups that could not initially secure funding in America. - Importance of recognizing early-stage technologies with potential to disrupt industry norms. 43:58 *🏗️ Graphene Manufacturing Approaches* - Different approaches to graphene production, including top-down and bottom-up methods, are explained. - Advantages of producing graphene close to end users to maintain quality and overcome supply chain challenges are emphasized. - Challenges of handling and transporting graphene due to it easily reverting to graphite. 47:08 *💡 Graphene's Broader Applications* - Expected exponential growth in graphene's impact, following patterns from other significant technological advancements, is discussed. - Concrete and water filtration as examples of graphene applications that have substantial environmental benefits. - Universal acceptance and integration of graphene technology projected by 2030. 51:03 *🔭 Graphene in Science and Technology* - Studies pointing to graphene's robust future in simplifying and enhancing technology across multiple dimensions are presented. - Continued prominence in scientific research and papers highlights its transformative potential. - Causing shifts in industry approaches from 3D to 2D structures, marking a new era in material science and technology. Made with HARPA AI
Honestly, i believe that the bottom-up method of creating graphene (Kevin Wyss, 1st speaker) will be the most revolutionary, the one with potential to most revolutionize the future. Not clear yet that Kevin's method, eg from waste plastic, will be THE bottom-up process, but it is the one which has the potential to create products which have the properties I'm fascinated by. Natural graphite creates graphene sheets which are too small in the length / width dimensions to do the things which interest me, eg light weight airship skins, super-strength ropes, etc.
Also interested in a process which could create accurate "optical rectennae" solar cells. Conductive antennae of the size of the range of 1/2 the wavelength of sunlight, connected to a conductive sheet by a single metal atom to create a diode.
Wonder if graphene could one day be incorporated into clothing to give rise to this wonder material that somehow keeps you cool during the most brazenly blazing summers that are coming. Otherwise air-conditioning alone is going to fry the planet with its carbon emissions.
Conductive ink comes to mind. It could be used to make clothes light up, maybe w graphene led light made of conductive ink, or to contact the person and use the 1.5v we produce to provide the electricity l.
She is nervous or something. It's ridiculous to just assume she is on drugs. She reminds me of how Elon Musk speaks, which is simply an observation, and I would never want anyone to think my comment means I admire anything about Musk. lol
I wonder if you copied the honeycomb 2d structure of Graphene, but replaced the carbon with gold… Gold is much more conductive than carbon, but graphene is more conductive than gold. Maybe this line of thought could lead to a superconductor?
Gold doesn’t have the ability to create bonds as easy as carbon which has manyyyy different forms and bonds. That’s why life is carbon based, carbon atoms versatility
This is an incredible panel. Thank you for uploading this!
🎯 Key points for quick navigation:
00:00:00 *🎉 Introduction to Graphene*
- The discussion introduces the significance of graphene, comparing it to aluminum's historical impact.
- Highlights the potential transformative power of graphene.
- Introduces the speakers and their connections to the graphene field.
00:03:10 *🧪 Understanding Graphene*
- Provides a foundational understanding of graphene as a 2D super material.
- Describes its unique properties like strength, conductivity, and applications.
- Compares methods for producing graphene: top-down vs. bottom-up.
00:07:08 *⚡ Production Challenges and Innovations*
- Discusses the challenges of scaling graphene production and its high cost.
- Describes new methods being developed to produce graphene more efficiently.
- Highlights significant efforts to lower production costs and achieve widespread industrial use.
00:14:14 *🌍 Global Graphene Market and Uses*
- Examines the global market segmentation and present uses of graphene in various industries.
- Emphasizes the potential for graphene to revolutionize areas like aviation, energy, and electronics.
- Notes ongoing efforts to enhance graphene production and its industrial integration.
00:23:47 *🌐 Graphene's Strategic Importance and Challenges*
- Describes potential immense economic impacts and demand for graphene-derived products.
- Highlights current production limitations and strategies for scaling operations.
- Discusses geopolitical aspects and implications for technology ecosystems.
00:23:59 *🇮🇱 Israeli Innovation and Personal Elements*
- Introduces Ariel and his remote participation due to the ongoing conflict in Israel.
- Personal note on the intersection of global events and innovation in science.
24:27 *🚀 Business Ventures and Graphene Innovation*
- The speaker discusses founding a company focused on licensing technologies and building startups in advanced materials and biotechnology.
- They highlight successes in creating companies that have become public or been sold, including partnerships with James Tour to form $2 billion worth of value.
- A focus on graphene technology for mass markets was emphasized, showcasing Universal Matter's potential in various industries.
29:05 *🌟 Graphene's Potential Impact*
- Graphene's incredible potential in various industries is mentioned, including concrete, asphalts, and AI.
- The high volume of patents in graphene is highlighted, indicating significant industrial impact.
- Predictions are made about increasing public awareness and understanding of graphene's benefits.
31:16 *📚 Scientific Paradigms and Technology*
- Discussion on how graphene is a transformative force not just for industries but also the scientific field.
- The cumulative role of technology in scientific advancements is emphasized, contrasting Thomas Kuhn's cyclical paradigms.
- Predictions that graphene will shape future industry revolutions more heavily than AI or other technologies.
34:04 *🔬 Science Simplified by Graphene*
- Graphene's superior properties such as high conductivity and heat resistance are explained.
- It's seen as addressing existing problems faced in modern technology, offering new opportunities across various sectors.
- Graphene's 2D properties and free electron movement simplify the physics of materials, offering transformative potential.
38:11 *🇮🇱 Investment and Startup Ecosystem*
- Discussion on the culture of innovation in Israel and its influence on graphene companies.
- Collaboration with James Tour led to many successful startups that could not initially secure funding in America.
- Importance of recognizing early-stage technologies with potential to disrupt industry norms.
43:58 *🏗️ Graphene Manufacturing Approaches*
- Different approaches to graphene production, including top-down and bottom-up methods, are explained.
- Advantages of producing graphene close to end users to maintain quality and overcome supply chain challenges are emphasized.
- Challenges of handling and transporting graphene due to it easily reverting to graphite.
47:08 *💡 Graphene's Broader Applications*
- Expected exponential growth in graphene's impact, following patterns from other significant technological advancements, is discussed.
- Concrete and water filtration as examples of graphene applications that have substantial environmental benefits.
- Universal acceptance and integration of graphene technology projected by 2030.
51:03 *🔭 Graphene in Science and Technology*
- Studies pointing to graphene's robust future in simplifying and enhancing technology across multiple dimensions are presented.
- Continued prominence in scientific research and papers highlights its transformative potential.
- Causing shifts in industry approaches from 3D to 2D structures, marking a new era in material science and technology.
Made with HARPA AI
Honestly, i believe that the bottom-up method of creating graphene (Kevin Wyss, 1st speaker) will be the most revolutionary, the one with potential to most revolutionize the future. Not clear yet that Kevin's method, eg from waste plastic, will be THE bottom-up process, but it is the one which has the potential to create products which have the properties I'm fascinated by. Natural graphite creates graphene sheets which are too small in the length / width dimensions to do the things which interest me, eg light weight airship skins, super-strength ropes, etc.
Also interested in a process which could create accurate "optical rectennae" solar cells. Conductive antennae of the size of the range of 1/2 the wavelength of sunlight, connected to a conductive sheet by a single metal atom to create a diode.
Well, She's adorable. I get excited about science, too!
She reminds me of the way Elon Musk talks...
What CPU should be the first implemented in graphene? The venerable 6502? z80? cray 1?
What graphene company should i invest in?
Nanoxplore
Versarien
Zentek
Directa Plus
Graphjet
Haydale
Graphex
Wish there was a way for small investors to participate.
Tensile..... yes
Other panelist is George Gilder
Wonder if graphene could one day be incorporated into clothing to give rise to this wonder material that somehow keeps you cool during the most brazenly blazing summers that are coming. Otherwise air-conditioning alone is going to fry the planet with its carbon emissions.
Conductive ink comes to mind. It could be used to make clothes light up, maybe w graphene led light made of conductive ink, or to contact the person and use the 1.5v we produce to provide the electricity l.
Hopefully the carbon in graphene can moderate your body odor.
I was thinking top tier bullet proof suits.
There already is a graphene made hoody for $700👍
Uhhmmm
Proof what you talvez about
Sounds great. Too bad these guys don’t seem to want ( or need?) investment flows in the near future .
If Graphene is made from Graphite then why isnt Graphite the strongest material in the world?
Uh oh. I think it might be widely called gruhfeen someday
Talk
🤔
The lady who did the introductions is on drugs. I just want to hear about graphene, not watch someone melting down.
She is nervous or something. It's ridiculous to just assume she is on drugs. She reminds me of how Elon Musk speaks, which is simply an observation, and I would never want anyone to think my comment means I admire anything about Musk. lol
I wonder if you copied the honeycomb 2d structure of Graphene, but replaced the carbon with gold…
Gold is much more conductive than carbon, but graphene is more conductive than gold. Maybe this line of thought could lead to a superconductor?
Gold doesn’t have the ability to create bonds as easy as carbon which has manyyyy different forms and bonds. That’s why life is carbon based, carbon atoms versatility
Costs more than it worth, I'm sure.
How good is your understanding of atomicity, the challenges of atomic engineering at 30 micron scale, p-orbitals and such?
Graphene can do anything except get out of the lab!