Empowering Authenticity:
Blockchain-Based Certificate Verification
Issue and verify certificates with complete transparency. Built on Arbitrum blockchain to ensure trust, security, and immutability.
Issue and verify certificates with complete transparency. Built on Arbitrum blockchain to ensure trust, security, and immutability.
Patram is a decentralized certificate issuance and verification platform that ensures authenticity and transparency using blockchain technology. Admins can create academic or training programs and issue certificates to students upon successful completion. Each certificate is stored on a Arbitrum chain with a unique hash acting as its digital fingerprint, making every credential verifiable, tamper-proof, and permanent.
Forgery and Duplication: Traditional digital certificates can be copied, edited, or faked, leading to serious credential fraud.
No Transparency: There’s no reliable way to confirm the authenticity of a certificate without contacting the issuer.
Manual Verification Delays: Checking each certificate takes time and effort, slowing down hiring and admissions processes.
Lack of Ownership: Students depend on institutions to verify their certificates, with no direct control over their credentials.
Blockchain-Backed Certificates: Each certificate is stored on a Arbitrum blockchain for cost efficiency, immutability, and transparency.
Unique Hash Verification: Every certificate generates a unique cryptographic hash — its digital fingerprint — ensuring tamper-proof records.
Instant Public Validation: Anyone can verify certificate authenticity by entering its hash or scanning a QR code on the platform.
Admin Dashboard: Admins can create programs, manage students, and issue certificates with a user-friendly, secure interface.
Each certificate is permanently stored on an Arbitrum blockchain, secured with cryptographic hashing to prevent forgery or alteration.
Every certificate generates a unique blockchain hash — a digital fingerprint — ensuring authenticity and traceability at all times.
Anyone can verify a certificate by entering its hash on the portal — instantly confirming its validity from the blockchain record.
Built on a Arbitrum blockchain for scalability and cost efficiency — enabling large-scale certificate issuance with minimal gas fees.
Admins can easily create academic or training programs and issue certificates to students in a secure, decentralized environment.
Certificates can be verified anywhere in the world — ensuring trust, transparency, and credibility for institutions and learners alike.
This platform leverages blockchain technology to bring transparency and trust to certificate management. Admins can create academic or training programs and issue certificates upon completion. Each certificate is converted into a unique blockchain hash, securely stored on an Arbitrum chain to ensure cost efficiency and immutability. Anyone can verify a certificate’s authenticity simply by entering its hash — instantly confirming whether it’s valid or tampered.
Each issued certificate is converted into a unique cryptographic hash — a digital fingerprint that ensures authenticity and prevents duplication.
The generated hash is stored securely on a Arbitrum blockchain — providing immutable and transparent record-keeping at low cost and high speed.
Anyone can verify a certificate by entering its hash. The system checks the on-chain record, confirming whether the certificate is valid or tampered.
The platform uses a Arbitrum blockchain network to deliver low-cost, fast, and secure certificate storage and verification. By leveraging decentralized technology, it ensures transparency, immutability, and global accessibility. This provides institutions, students, and verifiers with a trusted and permanent record of achievements.
The admin creates a program through the dashboard, adding details such as program name, duration, certificate criteria, and student information.
Once a student completes the program, the system generates a secure data packet containing the student's details, program information, and completion status.
The system digitally signs the data packet using the platform's private key and generates a unique cryptographic hash — a digital fingerprint for each certificate. Any alteration invalidates the signature, ensuring authenticity.
The signed data packet is securely stored on the Arbitrum blockchain for immutability and cost efficiency, ensuring that the certificate data remains tamper-proof and permanently verifiable.
A final PDF certificate is generated with visible details such as student name, program name, issue date, and certificate ID. It is then digitally signed by the platform to prevent any unauthorized modifications.
The final certificate includes two layers of protection — a blockchain record with a unique hash on Arbitrum and a digitally signed PDF file. Together, they make each certificate secure, verifiable, and tamper-proof.
Generation
On-Chain Transparency
Cost Efficiency (Arbitrum)
Risk of Forgery