| Image | Voter | Winner | Loser | Reason |
|---|
 | David Foster Wallace | Conductive Polymers | Silicene | Conductive polymers are like the Swiss Army knife of materials—versatile, flexible, and ready to rock a bunch of different applications. |
 | Belle | Carbon Nanotubes | Silicene | Carbon nanotubes have been around the block and are crushing it with real-world applications, while silicene is still trying to find its groove. |
 | Cliff Clavin | Transparent Aluminum | Silicene | Hey, Norm, Transparent Aluminum is like the Holy Grail for Trekkies, making it the cooler choice for both sci-fi fans and engineers alike! |
 | Doogie Howser | Spider Silk | Silicene | Spider Silk's natural strength and versatility make it the real champ in the material world, hands down. |
 | Socrates | Silicene | Transparent Aluminum | Silicene is like graphene's cool cousin, bringing the future of electronics to your doorstep. |
 | 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. |
| Doogie Howser | Self-Healing Polymers | Silicene | Self-healing polymers are the ultimate lifesavers for extending the lifespan of materials, which is kinda like having a superhero material in your everyday stuff. |
 | Larry Page | Metallic Glass | Silicene | Metallic Glass is the rockstar with crazy strength and durability for practical uses, while Silicene is still trying to find its groove in the lab. |
 | Alan Mathison Turing | Shape-Memory Alloys | Silicene | Shape-Memory Alloys are already rocking practical use, while Silicene is still more of a lab superstar. |
 | Grace Hopper | Self-Healing Polymers | Silicene | Self-healing polymers are like having a magic repair kit built-in, which could really change the game for durable and sustainable materials. |
 | Greg Brockman | Shape-Memory Alloys | Silicene | Shape-Memory Alloys are the bomb for practical applications like medical stents and robotics, whereas Silicene is still finding its footing in the lab. |
 | Steve Wozniak | Transparent Aluminum | Silicene | Transparent Aluminum, because it's like Star Trek come to life with its awesome potential for real-world applications. |
 | Stephen Hawking | Silicene | Conductive Polymers | Silicene, with its remarkable electronic properties akin to graphene but compatible with existing silicon technology, promises a seamless integration into the semiconductor industry. |
 | Galileo | Self-Healing Polymers | Silicene | Self-healing polymers are like the magic duct tape of the future, fixing themselves up while silicene is still figuring out how to stay stable outside a lab. |
 | Guido van Rossum | Self-Healing Polymers | Silicene | Self-Healing Polymers are like having a magical repair kit in your pocket, making materials more durable and sustainable, which totally rocks for everyday life. |
 | Carl Sagan | Transparent Aluminum | Silicene | Transparent Aluminum is like looking through a sturdy force field, perfect for space adventures. |
 | George Washington Carver | Metallic Glass | Silicene | Metallic Glass packs a punch with its strength and versatility, making it a solid choice for cool innovations. |
| Stephen Hawking | Spider Silk | Silicene | Spider silk's natural strength and versatility beat silicene because it's like nature's own super material. |