OZO

Ozone Chain is a pioneering Layer 1 Smart Contract Platform focused on delivering unparalleled quantum security for the blockchain space. To protect against emerging quantum threats, the platform integrates Quantum Random Number Generators (QRNGs), which produce truly unpredictable numbers for cryptographic operations. It also employs Post-Quantum Cryptography (PQC), specifically NIST-approved lattice-based algorithms like CRYSTALS-Kyber, for secure inter-node communication via Quantum Tunnels. This robust architecture makes Ozone Chain (ozo) a future-proof foundation for digital assets and cryptocurrency transactions.

Ozone Chain's core technology is built on an EVM compatible blockchain layer, enabling developers to build and deploy dApps and smart contracts using familiar tools like Solidity, Remix, and Metamask. It operates on a Proof-of-Authority (PoA) and IBFT consensus mechanism with a rapid 5-second block time, ensuring efficiency and scalability. The network's main use cases extend to DeFi applications, NFTs, gaming platforms, and secure enterprise solutions. Additionally, Ozone Chain facilitates its native stablecoin, USDO, providing stability for cryptocurrency transactions within its secure Web3 ecosystem.

The Ozone Chain network's native token, ozo, has a maximum and total supply of 1 billion. Its tokenomics outline a comprehensive distribution plan, including allocations for presales, public sale, staking rewards, liquidity, and future growth, all managed with cliff and vesting schedules. The ozo token primarily serves as the gas fee for transactions and smart contract execution on the Layer 1 blockchain. It also plays a role in network security and potentially future governance through the Ozone Chain DAO. Users can also stake ozo to secure the network and earn rewards.

Unlike traditional blockchains relying on classical cryptography vulnerable to quantum algorithms, Ozone Chain implements two quantum-resistant technologies: lattice-based cryptography for key exchange and encryption (NTRU algorithm), and quantum random number generation using photon-splitting physical processes. This dual approach provides mathematical and physical security against quantum attacks while maintaining compatibility with existing infrastructure.

Validator nodes require modest hardware: minimum 2 CPUs and 4GB RAM (8 CPUs/16GB RAM recommended), 1TB SSD storage, and static public IP address. Nodes must run specialized quantum security services that interface with photonics hardware for true randomness generation, implemented via systemd-managed processes. The network currently operates as a permissioned consortium requiring DAO approval for validator participation.

Yes, due to full EVM bytecode compatibility, Solidity smart contracts deployed on Ethereum can be directly ported to Ozone Chain. The chain replicates Ethereum's transaction structure, gas mechanics (minimum 5 gwei gas price), and contract deployment methods. Developers can use standard Ethereum tools like Truffle and Hardhat, with RPC endpoints at standard port 8545.

Quantum tunnels establish dedicated PQC-encrypted channels between nodes using lattice-based cryptography, creating attack-resistant pathways even if intercepted. Unlike quantum key distribution (QKD) limited by distance constraints, these software-defined tunnels enable global node communication while maintaining quantum resistance. The tunnels encapsulate all transaction data and block propagation, securing the network layer against MITM and future quantum attacks.

Governance operates through the Ozone DAO where OZO token holders approve validator sets and vote on protocol upgrades. Validators execute formal voting via smart contracts using the qbft_proposeValidatorVote method, requiring >50% approval for validator changes. Future development will transition more governance functions to the DAO, including parameter adjustments and treasury management.