There will be a futuristic storyline featuring the creation of manga characters from manga-charged FOMO stones on Mad Manga’s first-ever NFT (non-fungible token) collection, where they figure out how to escape their parallel universes.
MadManga with NFT collections
Tech, gaming, and technology experts from Silicon Valley, Disney, and Warner Bros. joined together to create MadManga, and with the consumption of collectible digital tokens, which has risen recently in the luxury fashion industry, consumers can now interact with the fast-evolving digital landscape of blockchain technology and today’s digital artists using NFTs.
According to Hypebeast, this is why MadManga has chosen to put its NFT project in a totally customized metaverse in which space and time intersect, culminating in the formation of a perilous black hole. MadManga stated that this black hole is the home of uncanny manga figures who were created from manga-energy “FOMO stones,” which have never been seen before.
Consumers can virtually interact with vintage manga titles, games, action figures, and multimedia technology through the NFT initiative. The custom metaverse will guide users through MadManga’s material repository using blockchain technology as a modern communication channel. MadManga sees its metaverse as a cultural incubator, a futuristic version of present business.
What is NFT?
In a nutshell, non-fungible tokens refer to the fact that it is unique and cannot be substituted with something else. If you trade one bitcoin for another Bitcoin, you’ll end up with exactly the identical thing, as is the case with other cryptocurrencies. A one-of-a-kind trading card, on the other hand, is not transferable. The outcome would be radically different had you exchanged it for a completely different card.
According to The Verge, the majority of NFTs are components of the Ethereum blockchain at the most fundamental level. The cryptocurrency Ethereum, like bitcoin or dogecoin, has a blockchain that enables these non-fungible tokens (NFTs), which store additional information that allows them to function differently.