The Film Theory video discusses the movie Hitman: Agent 47, focusing on the character John Smith's ability to withstand bullets due to his "subdermal body armor." The host challenges the movie's explanation, suggesting that real-life technology could make such armor possible.
They explore two materials that could be used to create bulletproof skin: nanocellulose and graphene. While nanocellulose has impressive strength and flexibility, it's not suitable for implantation under human skin due to its reactivity with water.
Graphene, on the other hand, is a more promising candidate. It's an ultra-thin, ultra-flexible sheet of diamond-like hardness made entirely of carbon. Graphene is non-reactive, making it safe for implantation, and has been tested to withstand micro-bullets. The host concludes that graphene could be the perfect material for John Smith's subdermal armor, making his ability to withstand bullets plausible with current technology.
Here are the key facts extracted from the text:
1. The movie "Hitman: Agent 47" features a top-secret organization that creates superhumans by modifying human DNA.
2. The organization trains these genetically engineered humans to become killing machines from birth.
3. The movie's villain, John Smith, has a unique ability to survive being shot repeatedly.
4. John Smith's ability to survive is explained in the movie by his possession of "subdermal body armor".
5. The concept of bulletproof skin is not entirely fictional, as technology to create it actually exists.
6. Kevlar is a material known for its bullet-stopping abilities, but it is not suitable for use as subdermal armor due to its weight and rigidity.
7. Nanocellulose is a new material that is eight times stronger than steel, more flexible than plastic, and could potentially be used as subdermal armor.
8. Nanocellulose is made from natural, organic particles found in wood, algae, and bacteria.
9. However, nanocellulose is not suitable for use as subdermal armor because it reacts with water in the body, causing it to expand and potentially harm the wearer.
10. Graphene is a material that is 130,000 times stronger than Kevlar and could potentially be used as subdermal armor.
11. Graphene is made from a uniform carbon structure and is non-reactive, making it suitable for use in the human body.
12. Graphene has been tested for its ability to stop micro-bullets and has been shown to be effective even in very thin layers.
13. Graphene is also highly conductive, but this could potentially be a drawback in certain situations, such as in a thunderstorm.
14. The concept of implanting graphene under the skin as a form of subdermal armor is theoretically possible, but it is not currently a practical or safe option.