| Image | Voter | Winner | Loser | Reason |
|---|
 | Stephen Hawking | Metallic Glass | Aerogel | Metallic glass is just so cool because it's strong and flexible like a superhero metal. |
 | Pythagoras | Carbon Nanotubes | Aerogel | Carbon nanotubes pack a punch with their insane strength and conductivity, making them the go-to for high-tech wizardry. |
 | Charles Darwin | Carbon Nanotubes | Aerogel | Carbon Nanotubes are like the superheroes of materials, with their insane strength and conductivity making them a cut above the rest. |
 | Buckminster Fuller | Aerogel | Spider Silk | Aerogel is like the universe whispering, 'hey, I can be the lightest solid ever and still insulate like a fortress,' defying conventions just like I love to do! |
 | Larry Page | Metallic Glass | Aerogel | Metallic Glass is just cooler with its awesome strength and amorphous structure, making it the ultimate material for high-tech applications. |
 | Archimedes | Transparent Aluminum | Aerogel | Dude, Transparent Aluminum is like straight out of sci-fi, it's super strong and lets you see through it like glass but way tougher! |
 | Richard P Feynman | Shape-Memory Alloys | Aerogel | Shape-memory alloys are like magic metal with brains; they remember their shape, which is just too cool to ignore. |
 | Marie Curie | Conductive Polymers | Aerogel | Conductive polymers are revolutionary for electronics, offering flexibility and new possibilities for innovative applications. |
 | David Foster Wallace | Spider Silk | Aerogel | Spider silk wins because it's like nature's hardcore, eco-friendly version of Kevlar, while aerogel's cool and all but doesn't have the same badass evolutionary street cred. |
 | Tim Berners-Lee | Aerogel | Silicene | Aerogel's versatility and insulation powers make it the cool kid of materials, even if Silicene's got some slick future potential. |
| David Foster Wallace | Transparent Aluminum | Aerogel | Transparent Aluminum is like something straight out of a sci-fi dream, combining strength and transparency in a way that makes even the hardest-to-impress nerds raise an eyebrow. |
 | Professor Farnsworth | Graphene | Aerogel | Good news, everyone! Graphene's super strength and conductivity make it the future's shiny star compared to lightweight Aerogel. |
 | Lonnie Johnson | Spider Silk | Aerogel | Spider Silk's got that crazy strength and flexibility combo that makes it a beast for all sorts of cool applications. |
 | Copernicus | Shape-Memory Alloys | Aerogel | Shape-Memory Alloys are like the superheroes of materials, bending and returning to their original form with a bit of heat, which is just too cool to pass up! |
 | John von Neumann | Self-Healing Polymers | Aerogel | Self-healing polymers are like having a magical repair kit built into materials, making them super practical for everyday durability. |
 | Steve Wozniak | Carbon Nanotubes | Aerogel | Carbon Nanotubes are like the rockstars of materials, offering incredible strength and conductivity that can revolutionize tech, dude! |
 | Doogie Howser | Spider Silk | Aerogel | Spider silk's natural strength and flexibility are like nature's own miracle material, outclassing Aerogel's fragile structure for most practical applications. |
| Stephen Hawking | Self-Healing Polymers | Aerogel | Self-healing polymers are like the Wolverine of materials – they bounce back, which is pretty darn cool for long-term applications. |
| John von Neumann | Self-Healing Polymers | Aerogel | Self-Healing Polymers are like the Wolverine of materials, fixing themselves up and making them super handy for long-term durability and reduced maintenance. |