As the Web3 ecosystem grows, demand for privacy-preserving, verifiable data is soaring, with applications across DeFi, AI, digital identity, and decentralized governance needing reliable ways to prove information without exposing sensitive data.

zkPass (ZKP) is a decentralized oracle protocol that transforms private internet data into verifiable on-chain proofs. Leveraging zkTLS — a fusion of 3P-TLS and Hybrid-ZK cryptography — zkPass allows users and applications to prove facts from any HTTPS website without OAuth, API keys, or trusted intermediaries, ensuring privacy, security, and universal compatibility.

All proofs are generated locally, keeping user data private while enabling applications across AI, DePIN, digital identity (DID), DeFi lending, governance, and compliance.

The $ZKP token is now available for early access in XT’s Pre-market ZKP section. Users can gain an early position in zkPass’s verifiable data ecosystem while supporting its growth and adoption.

TL; DR for Busy Readers

• zkPass (ZKP) turns private internet data into verifiable on-chain proofs while keeping user information secure.
• Powered by zkTLS, it supports privacy-preserving verification across various domains like identity and finance.
• $ZKP token fuels settlement, validation, and ecosystem participation with a deflationary design.
• It paves the way for seamless, trustless data verification across Web2 and Web3.

What is zkPass(ZKP)?

zkPass is a decentralized oracle protocol that transforms private internet data into verifiable proofs on-chain. Built on zkTLS — a novel integration of 3P-TLS and Hybrid-ZK cryptography — zkPass enables users and applications to prove facts derived from any HTTPS website without requiring OAuth, API keys, or trusted intermediaries.

Through zkPass, individuals can selectively prove attributes across a wide range of data domains, including:

• Legal identity (passport, driver’s license, national ID)
• Financial records (account balances, transaction history, credit scores)
• Healthcare information (medical records, prescriptions, genetic data)
• Social and behavioral data (social media accounts, activity proofs)
• Professional and educational background (employment history, diplomas, certifications)
• Digital activity and assets (gaming accounts, loyalty programs, real-world assets)

All proofs are generated locally in the user’s browser or device, ensuring that raw personal data is never exposed or transmitted. These verifiable proofs can be integrated into a broad spectrum of use cases spanning AI, DePIN, digital identity (DID), DeFi lending, governance, compliance, and beyond.

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✅ Trading Start Time: November 11, 2025, 08:00 (UTC)
✅ Delivery Start Time: Refer to the trading details page for specific delivery times.

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How zkPass(ZKP) Works: Core Mechanisms Explained

zkPass uses Three-Party TLS (3P-TLS), and Hybrid Zero-Knowledge Proof (Hybrid ZK) for secure data handling. It starts with a three-party handshake among a data source (S), user (P), and zkPass node (V), generating shared session keys with Paillier encryption for security. P and V jointly compute keys for encryption and authentication, with V restricted from accessing the user’s private data. The process includes standard TLS steps and prepares for zero-knowledge proofs.

zkPass employs a hybrid zero-knowledge approach, merging interactive (VOLE-ZK 23) and non-interactive protocols. VOLE-ZK 23 ensures data origin authenticity and client tamper protection, optimized by SoftSpoken for efficiency and focusing on AND gates for simplicity.

For non-interactive zero-knowledge (NIZK), zkPass uses the SNARK framework. Verified results are signed and added to a Merkle tree in the SBT (Soul Bound Token) contract, ensuring efficient, secure, and private validation.

ZKP Tokenomics: Utility, Rewards, and Value

$ZKP Tokenomics

The internet has always been built on information, but not on verifiable truth. For decades, online data has been visible rather than verifiable. Screenshots can be forged, credentials fabricated, and trust has relied on assumption instead of proof.

zkPass and its zkTLS protocol redefine this foundation. For the first time, private Web2 data such as financial records, identity attestations, learning streaks, or travel histories can be transformed into cryptographic proofs that are portable, privacy-preserving, and verifiable across networks. At the center of this verifiable data economy stands $ZKP, the native utility token that enables settlement, validation, and coordination within the zkPass ecosystem.

Token Overview

• Ticker: $ZKP
• Token Standard: ERC-20
• Total supply: 1,000,000,000
• Supply Type: Fixed, no inflation
• Deflationary Model: Portion of settlement fees burned to keep supply deflationary.
• Buyback Mechanism: DAO-led periodic buybacks funded by protocol revenue.

Token Utility

1. Settlement Medium

$ZKP is the native functional unit required for proof settlement and verifier execution within the zkPass protocol.

2. Validator Collateral

Validators post $ZKP as operational collateral to ensure network correctness, uptime, and reliability.

3. Network Credits

$ZKP operates as on-chain credits for recording and accounting network contributions, including verifiable computation and integrations.

4. Service Access

Used by enterprises and developers to interface with zk-native verification APIs and privacy-preserving data infrastructure.

5. Cross-System Verifiability and Governance

$ZKP supports decentralized coordination and acts as the trust layer linking verifiable systems, while sustaining audits and other non-profit maintenance activities.

Token Allocation and Vesting Schedule

• Community – 48.5%(12.5% unlocked at TGE, 6% vesting linearly over the first 3 months, and 30% vesting monthly over 5 years starting from TGE) Allocated for ecosystem growth, including verifiable airdrops, network incentives, community sales, exchange-related marketing, and strategic partnerships.
• Early Investors – 22.5%(12-month cliff followed by 18-month linear vesting) Allocated to strategic and institutional partners who supported early-stage protocol development.
• Core Contributors – 14%(24-month cliff followed by 24-month linear vesting) Reserved for founding members, engineers, researchers, and key operational contributors driving the zkPass network.
• DAO Treasury – 10%(5-year linear vesting) Dedicated to long-term network sustainability, governance, ecosystem grants, and emergency reserves.
• Liquidity – 5%(100% unlocked at TGE) Reserved for market liquidity provision and network bootstrapping.

At launch, circulating supply is limited to community participation and liquidity, with 0% unlocked for the team or investors.

The Credibility Flywheel

→ Web2 and Web3 converge, unlocking vast data universes.

→ Data moves through privacy-preserving verification.

→ Verified interactions create real utility and new applications.

→ Utility drives adoption by users and enterprises across ecosystems.

→ Adoption fuels validator participation and network incentives.

→ Growing value accelerates integrations and data onboarding.

→ Each new data source restarts the cycle, faster, stronger, and broader.

Each rotation compounds utility, liquidity, and credibility, turning trust into energy and energy back into trust.

zkPass Use Cases and Ecosystem Applications

zkPass extends verifiability across the digital world by transforming sensitive Web2 data into cryptographic proofs that are portable, privacy-preserving, and universally verifiable. Built on the zkTLS protocol, zkPass creates a trust layer where information can prove itself without being exposed, bridging the gap between Web2 institutions and Web3 applications.

The use cases of zkPass can be organized into ten domains, each addressing critical challenges where authenticity, privacy, and interoperability are essential:

Identity and Compliance

Privacy-preserving KYC, AML, and eligibility verification across financial and regulated services.

Finance and Governance

Proofs of assets, transactions, and unique identities enabling compliant DeFi, fair governance, and automated insurance claims.

Reputation and Achievements

Conversion of Web2 achievements, professional records, and experience into verifiable credentials usable across ecosystems.

Industries and Society

Secure proofs for healthcare, education, social networking, and gaming, ensuring authenticity without data exposure.

AI and Data Economy

Authentic, privacy-protected data inputs for AI models and agents, supporting trustworthy and regulated AI systems.

DePIN and Machine Economy

Verifiable machine-to-machine interactions and device usage proofs anchoring the decentralized infrastructure economy.

Supply Chain and Enterprise Data

Cryptographic verification of supply chain documents, compliance attributes, and enterprise records.

Government and Public Services

Efficient, privacy-first verification for welfare distribution, tax compliance, and digital identity.

Content Authenticity

Provenance and authorship proofs for media, creative works, and AI-generated content, safeguarding digital trust.

Extended Ecosystem Integration

Cross-industry interoperability where proofs generated once can be reused across finance, enterprise, AI, and Web3 protocols.

How to Buy $ZKP｜Ways to Participate

The $ZKP token is now available in the XT Pre-market ZKP section, enabling early participants to access the asset ahead of public trading. Users can simply log in to XT, navigate to the ZKP Pre-market area, and purchase directly through the platform.

For those who would like to engage with the project at an early stage, the pre-market offering provides a direct entry point with flexible participation. Whether exploring the ecosystem for long-term value or aiming to secure an early position, the XT Pre-market makes it possible to take part with ease.

Beyond purchasing, users who are interested in the long-term development of the project may also choose to follow ongoing progress and watch for emerging opportunities within the ecosystem. As the network expands, new features, partnerships, and community-driven initiatives may provide additional ways to participate.

ZKP Token’s Competitive Edge

zkPass introduces a new verification paradigm that addresses the limitations of existing identity and data solutions:

Privacy-Preserving

Sensitive user data never leaves the device. Proofs reveal only the attributes required for verification.

Verifiable Integrity

zkTLS extends the standard TLS protocol into a three-party model, ensuring the provenance and authenticity of private data.

Universal Compatibility

Works with any HTTPS website, without requiring OAuth APIs, commercial licenses, or custom integrations.

Anti-Cheating

Template-based verification ensures that client requests and server responses cannot be manipulated. Users cannot falsify achievements or credentials.

Efficient Proof Generation

Powered by the VOLE-in-the-Head (VOLEitH) algorithm, zkPass enables millisecond-level proof generation directly on local devices, producing proofs that remain publicly verifiable.

Trustless Attestations

Decentralized MPC nodes verify data integrity before a proof is accepted, guaranteeing that zkSBTs and attestations cannot be forged.

Key Risks and Challenges of the ZKP Token

While zkPass and $ZKP are built on a strong foundation, certain challenges remain. Broad adoption depends on enterprise integrations and user confidence in cryptographic proofs, and the transition from Web2 data silos to decentralized verification may take time. As a sophisticated system, ongoing security audits and robust node operations will help ensure reliability and maintain trust in proof generation.

The $ZKP token’s dynamics also involve some uncertainties. Its fixed supply, burn mechanisms, and DAO-led buybacks are most effective when proof generation, staking, and validator participation remain active. Price fluctuations may occur if ecosystem growth is slower than expected or if alternative privacy-preserving verification solutions gain traction. Continued success will rely on steady technological development, integration progress, and engaged community governance.

ZKP’s Outlook: Growth and Ecosystem Expansion

As the roadmap advances toward Q4 2025, the launch of the ZKP token marks a major inflection point for network maturity. With TGE activating staking, proof incentives, governance rights, and reputation-based rewards, $ZKP will evolve from a utility asset into the core driver of ecosystem participation. The introduction of a full token utility framework will further enable staking for node operation, proof verification, schema access, and fair distribution of rewards — laying the foundation for a self-sustaining economic environment.

Looking ahead into 2026, the project is positioned for a phase of accelerated expansion. Governance participation is expected to deepen, with broader DAO involvement, more flexible treasury management, and a more diversified incentive model designed to attract developers, data contributors, and validators at scale.

As network throughput and validator coverage continue to grow, the infrastructure may reach consumer-level and enterprise-grade capacity, opening the door for real-world applications, new integration layers, and a stronger marketplace around privacy-preserving computation.

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