This is the newest technique to make sure that smart contracts are always secure in very important domains, like world banking. Quantum computers can’t break blockchain rules, hence this is conceivable. The major purpose of this research is to see whether post-quantum cryptography can be combined with blockchain technology to make it safer to move money across borders. Quantum computers might easily get into older blockchain systems since they employ well-known encryption methods like ECC and RSA. This makes it easy for other people to hurt them. As quantum computing becomes more common, the safety of smart contracts used in international banking is becoming more and more at danger. We think that the Lattice-Based Cryptographic Integration Framework (LBCIF) might help with these issues. This system leverages lattice-based post-quantum algorithms like Kyber and Dilithium. These algorithms may keep cryptography safe against quantum assaults. You can use these algorithms to sign smart contracts, prove who you are, and agree on blockchains. The LBCIF is an excellent instrument for trade finance since it uses smart contracts to make settlements and letters of credit with banks all around the world automatic. The framework ensures secure key exchange, digital signature validation, and interoperable transactions across regulatory environments. Findings show that LBCIF maintains performance while significantly improving resistance to quantum threats. It enables secure, scalable, and regulation-compliant smart contract execution for global financial operations.
Hasan et al. (Thu,) studied this question.