NON-FUNGIBLE TOKENS AS A WAY TO PROTECT GLOBAL INTELLECTUAL PROPERTY

Authors

DOI:

https://doi.org/10.33102/mjsl.vol11no2.475

Keywords:

Blockchain technology, Non-Fungible Token, cryptocurrency, eretherium, global IP, intellectual property

Abstract

Blockchain technology is increasingly being recognized worldwide as a cornerstone of security and stability in the digital realm. The Internet, often viewed as a seemingly chaotic, unpredictable, and insecure environment, is experiencing a significant paradigm shift thanks to disruptive innovations such as blockchains, which provide a robust mechanism to ensure the integrity of the global information flow. While the original purpose of this technology was to facilitate cryptocurrencies, its applications have since broadened, permeating law, business, and more recently, sectors like art and gaming. In this context, Non-Fungible Tokens (NFTs) are on the cusp of becoming a mainstream asset class. These unique digital assets, intricately tied to Intellectual Property, present an unexplored avenue for legal and business applications. This paper assesses the potential uses of NFTs for to protect global IP. The study further suggests an analogous interpretation of existing norms that regulate the connection with NFTs and local regulations, thus laying the groundwork for an initial self-regulatory framework. In conclusion, NFTs are poised to revolutionize IP protection globally. However, from a legal perspective, it also represents the necessity to develop a regulated self-regulatory system to frame such technology. As part of future research, we propose the creation of legal standards to accept and introduce NFTs as part of the IP protection laws.

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References

Beckman, Marc. (2021).The comprehensive guide: NFTs, digital artwork, blockchain technology. New York: Skyhorse Publishing.

Chevet, Sylve. (2018). Blockchain Technology and Non-Fungible Tokens: Reshaping Value Chains in Creative Industries [Master Thesis, HEC, Paris] http://dx.doi.org/10.2139/ssrn.3212662 DOI: https://doi.org/10.2139/ssrn.3212662

Di Angelo, Monika; Salzer, Gernot. (2021). Identification of token contracts on Ethereum: standard compliance and beyond. International Journal of Data Science and Analytics. 16, 333-352. https://doi.org/10.1007/s41060-021-00281-1 DOI: https://doi.org/10.1007/s41060-021-00281-1

Entrinken, William, Shirley, Dieter, Evans, Jacob, Sachs, Nastassia. (2018). EIP-721: Non-Fungible Token Standard," Ethereum Improvement Proposals, no. 721, [Online serial]. https://eips.ethereum.org/EIPS/eip-721.

Kings of Leon x Yellowheart. (2021). When You See Yourself. NFT Yourself. https://opensea.io/assets/0x557430421f8f3ed0a92aca211f1c05ad7b606288/0 .

MakersPlace. (2021) MakersPlace x Christie’s x Beeple A Historic Day for Digital Art. Makersplace https://rare.makersplace.com/2021/02/16/makersplace-x-christies-x-beeple-a-historic-day-for-digital-art/

Ossio, Diego Ballon, Cranston, James, Nixon, Laura, Garcia, Laura de Arroyo. (2021). Non-fungible tokens: the global legal impact. Clifford-Chance

Sokolin, Lex. (2021). Long Take: Non-fungible tokens and crypto art (like Hashmasks) will create multi-billion markets for digital objects with financial features. Fintech Blueprint. https://lex.substack.com/p/long-take-non-fungible-tokens-and.

The European Mathematical Society. (2020). Chaos Theory. Encyclopedia of Mathematics. www.encyclopediaofmath.org/index.php/Chaos

The European Union Blockchain Observatory & Forum. (2021). Demystifying Non- Fungible Tokens (NFTs). Online: European Union Blockchain Observatory & Forum. https://www.eublockchainforum.eu/sites/default/files/reports/DemystifyingNFTs_November%202021_2.pdf.

Published

2023-12-30

How to Cite

Magalhães, M. P. (2023). NON-FUNGIBLE TOKENS AS A WAY TO PROTECT GLOBAL INTELLECTUAL PROPERTY. Malaysian Journal of Syariah and Law, 11(2), 420–425. https://doi.org/10.33102/mjsl.vol11no2.475