ZKPs have recently been implemented in Zcash successfully, as seen in , Alternative Coins.
More specifically, SNARK (short for Succinct Non-Interactive Argument of Knowledge) have been implemented in order to ensure privacy on the blockchain.
How Blockchain Verifies Information Without Revealing It (Part 2)
The same idea can be implemented in Ethereum and other blockchains also.
Integrating Zcash on Ethereum is already a very active research project being run by the Ethereum R&D team and the Zcash Company.
The original research paper is
Another excellent paper is here http://chriseth.github.io/notes/articles/zksnarks/zksnarks.pdf.
There is a recent addition to the family of ZKPs called Zero-Knowledge Succinct Transparent Argument of Knowledge (ZK-STARKs) which is an improvement on ZK-SNARKs in the sense that ZK-STARKs consume a lot less bandwidth and storage as compared to ZK-SNARKs.
Also, they do not require the initial, somewhat controversial, trusted setup that is required for ZK-SNARKs.
Why This Matters for Blockchain Technology
Moreover, ZK-STARKs are much quicker than ZK-SNARKs as they do not make use of elliptic curves and rely on hashes.
The original research paper for ZK-STARKs is available here https://eprint.iacr.org/2018/046.pdf.
specifically, SNARK (short for Succinct Non-Interactive Argument of Knowledge) have been implemented in order to ensure privacy on the blockchain. The same idea can be implemented in Ethereum and other blockchains also. Integrating Zcash on Ethereum is already a very active research project being run by the Ethereum R&D team and the Zcash Company. The original research paper is Another excellent paper is here http://chriseth.github.io/notes/articles/zksnarks/zksnarks.pdf. There is a recent addition to the family of ZKPs called Zero-Knowledge Succinct Transparent Argument of Knowledge (ZK-STARKs) which is an improvement on ZK-SNARKs in the sense that ZK-STARKs consume a lot less bandwidth and storage as compared to ZK-SNARKs. Also, they do not require the initial, somewhat controversial, trusted setup that is required for ZK-SNARKs. Moreover, ZK-STARKs are much quicker than ZK-SNARKs as they do not make use of elliptic curves and rely on hashes. The original research paper for ZK-STARKs is available here https://eprint.iacr.org/2018/046.pdf.
Key Points to Remember
- Zero-Knowledge Proofs ZKPs have recently been implemented in Zcash successfully, as seen in , Alternative Coins.
- More specifically, SNARK (short for Succinct Non-Interactive Argument of Knowledge) have been implemented in order to ensure privacy on the blockchain.
- The same idea can be implemented in Ethereum and other blockchains also.
- Integrating Zcash on Ethereum is already a very active research project being run by the Ethereum R&D team and the Zcash Company.
Conclusion
Zero-Knowledge Proofs represents one of the many innovative layers that make blockchain technology so powerful and transformative. As distributed systems continue to evolve, a solid understanding of these core concepts becomes increasingly valuable — not just for developers, but for anyone building, investing in, or working alongside blockchain-powered systems.
Whether you are just starting your blockchain journey or deepening existing expertise, mastering these fundamentals gives you the tools to think clearly about decentralized systems and make smarter decisions in this rapidly evolving space.