NanoVita is a decentralized science (DeSci) protocol that aims to integrate nanotechnology, AI-driven biological intelligence, and tokenized real-world health data into a unified on-chain ecosystem. The project positions itself at the intersection of Nanotechnology, AI, DeSci, and Real-World Assets (RWA), with a mission centered on "nanotechnology for the next human upgrade" by utilizing AI-driven DeSci and RWA-backed health data. It researches how advanced nanomaterials can be used to enhance human health and performance, with the goal of converting scientific outcomes into transparent, verifiable on-chain value. ^{[4] [5]}

Overview

NanoVita is a crypto-native DeSci platform designed to facilitate research and development in the field of nanoscience. The project's stated mission is to address challenges in traditional scientific research, such as data silos, a lack of transparency, and issues with reproducibility. It aims to build an open, global network where scientific breakthroughs, particularly those involving nanomaterials, are collectively validated, community-owned, and supported through a crypto-economic incentive model. The protocol established its presence on the social media platform X (formerly Twitter) in November 2025. ^{[5] [1]}

The core of the platform is centered on studying how advanced nanomaterials can enhance human vitality, accelerate physical recovery, and optimize long-term health and performance. To achieve this, NanoVita intends to combine AI inference models with decentralized research frameworks. It uses real-world health data represented as tokenized Real-World Assets (RWAs) to generate Real-World Evidence (RWE) for its studies. This entire process is designed to translate scientific findings into verifiable digital assets on a blockchain, ensuring transparency and immutability of the research outcomes. ^{[4] [2] [1]}

The entire ecosystem is intended to be governed by the NanoVita DAO (Decentralized Autonomous Organization), which gives the community control over the protocol's future direction, research funding, and ethical guidelines. ^{[4] [1]}

Architecture

The technical architecture of NanoVita is structured around a four-layer framework designed to capture, process, and tokenize real-world health data for decentralized scientific research. This system is foundational to its goal of converting off-chain biological data into on-chain verifiable assets. ^{[4] [1]}

1. Nanotech Data Layer: This is the foundational layer responsible for capturing and storing real-time molecular data originating from nanotech experiments and health monitoring. This includes data from interactions with nanomaterials like graphene oxide patches or gold nanorods. The data is stored on decentralized storage solutions to ensure immutability and accessibility. ^[4]
2. AI Simulation Layer: This layer utilizes advanced artificial intelligence models to process the raw data collected by the Nanotech Data Layer. The platform's documentation specifies the use of a "Gemini 2.5-powered Bio-netlligence" model for simulating biological responses, analyzing complex health data across different scales, and generating predictive insights. This AI layer is crucial for identifying patterns and deriving meaningful conclusions from the large datasets. ^{[4] [1]}
3. RWA Tokenization Layer: At this layer, verified real-world health data is converted into on-chain assets. The protocol refers to these as Tokenized Health Proofs (THP), a specific form of Real-World Asset (RWA). This process of assetization turns individual health information into tradable, productive assets that can be used within the DeSci ecosystem while maintaining a verifiable link to the original data. ^{[4] [1]}
4. DeSci Protocol Layer: This is the overarching blockchain-based protocol that integrates the other three layers. It manages the token-based crypto-economic incentives, facilitates decentralized governance through the NanoVita DAO, and records all research outcomes and value transactions on-chain. This layer ensures that all activities within the ecosystem are transparent, auditable, and governed by the community of participants. ^{[4] [1]}

Products

The NanoVita protocol is comprised of several core components and interfaces that together form its research and data management platform. ^{[4] [1]}

• Research Dashboard: An interactive interface that allows users, including researchers and data contributors, to monitor and participate in research activities. It provides tools for visualizing data and tracking the progress of ongoing studies. ^{[4] [1]}
• RWA Data Hub: A centralized portal for managing, accessing, and trading the tokenized real-world health data assets (Tokenized Health Proofs) within the ecosystem. This hub serves as the main repository for the data used in research protocols. ^{[4] [1]}
• Research Explorer (or Browser): A tool that enables users to browse and explore all ongoing and completed research studies, datasets, and scientific outcomes generated within the NanoVita network. It provides a transparent view of all research activity on the platform. ^{[4] [1]}
• AI Bio-Intelligence Model: The protocol's core AI system, designed for the cross-scale analysis of complex health data. This is presented as an integrated product that researchers can leverage to gain insights from the platform's datasets. ^[1]
• Community Science Hub: A dedicated section of the platform where the community can launch their own experiments, contribute data to ongoing research, and participate in the governance of the NanoVita protocol. ^[4]
• Data Modules: These are specialized components designed to handle and process specific types of data within the ecosystem, ensuring that different forms of health and molecular information are managed correctly. ^[4]

Features

NanoVita's platform integrates several key features to support its decentralized research ecosystem. ^{[4] [1]}

Health Data Assetization

A core feature of the protocol is the ability to tokenize verified health data, a process referred to as assetization. Individuals can contribute their real-world health information, which is then converted into on-chain assets called Tokenized Health Proofs (THP). These THPs function as verifiable, yield-bearing assets that can be traded or used in research studies, allowing data contributors to be compensated for their participation. ^{[4] [1]}

Scientific NFTs

In addition to its native fungible token, NanoVita's incentive system utilizes Scientific NFTs. These non-fungible tokens are issued to participants as a proof of their contribution to a specific research initiative. They are designed to act as a value carrier for the intellectual property (IP) or other outcomes generated from the research to which the holder contributed, directly linking them to the potential value and success of a scientific discovery. ^[1]

Incentive and Reward Systems

The platform includes multiple mechanisms to incentivize participation. A points and leaderboard system is used to track and rank user contributions, fostering a competitive and engaging environment. The protocol also offers staking for its native token, with a specified rate of 12% APY, allowing token holders to earn yield by securing the network. Rewards are distributed for a variety of activities, including data contribution, research validation, and providing computational power. ^[4]

Decentralized Infrastructure

The ecosystem is supported by a network of over 250 active nodes that maintain the protocol's operations and data integrity. All real-time molecular interaction logs and research data are stored on unspecified decentralized storage solutions to ensure data permanence and resist censorship. ^[4]

Ecosystem

The NanoVita ecosystem is designed as an open, collaborative, and circular economy that connects various participants in the scientific process. It aims to align the interests of researchers, individual data contributors, and a broader community of token holders toward the common goal of advancing nanoscience research for human health. ^{[4] [1]}

Researchers can access high-quality, tokenized real-world health data and apply for funding through the community-governed DAO. Individuals who contribute their health data can do so in a secure manner and are rewarded with the platform's native token, $NANA, allowing them to benefit financially from their participation in scientific studies. The broader community of token holders participates in the ecosystem's governance, validating research findings, and helping to set the strategic direction and ethical standards of the protocol. This model is intended to create a self-sustaining network where contributions are rewarded, and the value generated from research is distributed among the participants who made it possible. ^{[4] [2]}

Use Cases

The NanoVita protocol is designed to support a range of applications and research studies focused on nanotechnology and human performance.

• Athletic Recovery: A specified use case is the "Graphene Oxide Response Phase III" human trial, which investigates the thermal response of graphene oxide patches on athletes to measure and potentially accelerate physical recovery. ^[4]
• Sleep Analysis: The platform lists a remote sleep study, "Sleep Cycle Nanobot Interaction," to facilitate research into REM sleep patterns by analyzing data from interactions with non-invasive lipid nanoparticles. ^[4]
• Biophysical Measurement: Another listed clinical study involves using gold nanorods to measure the efficiency of heat dissipation in muscle tissue, applicable to sports science and performance optimization. ^[4]
• Decentralized Research Funding: The protocol can be used to facilitate transparent and community-driven funding for nanotechnology research projects, allowing novel ideas to be supported outside of traditional institutional channels. ^{[2] [1]}
• Health Data Marketplace: By tokenizing health data, the ecosystem aims to create a verifiable and monetizable marketplace where individuals can control and benefit from sharing their information for scientific advancement. ^[2]
• Community-Owned Intellectual Property: The platform's structure allows for community governance and ownership of the intellectual property (IP) and discoveries generated through its research protocols. ^[2]

Tokenomics

The NanoVita ecosystem's crypto-economic model is powered by a native utility and governance token, $NANA, as well as a system of Scientific NFTs. This dual-asset approach is designed to incentivize participation and distribute value generated within the protocol. ^{[4] [1]}

$NANA Token

$NANA is the primary fungible token of the NanoVita protocol.

Token Allocation

• Information regarding the total supply, distribution, and allocation of the $NANA token is not available in the provided source materials. ^{[4] [5]}

Token Utilities

• Incentives and Rewards: $NANA is used to reward users for participating in research studies, contributing their health data, validating research findings, and providing computational power to the network's AI models. ^{[4] [1]}
• Staking: The token can be staked to earn yield. The project's documentation mentions a staking reward rate of 12% APY. ^[4]
• Governance: $NANA functions as a governance token, granting holders the right to vote on proposals submitted to the NanoVita DAO and influence the protocol's development and research priorities. ^[1]
• Medium of Exchange: The token serves as the primary currency for transaction fees, accessing services, and transferring value within the NanoVita ecosystem. ^[1]

Governance

Governance of the NanoVita protocol is managed by the NanoVita DAO. This decentralized structure is intended to give the community, specifically the holders of the $NANA token, control over the protocol's key decisions. The DAO's responsibilities include managing the platform's treasury, setting research priorities, approving research proposals for funding, and overseeing ethical compliance. This model aims to ensure that the protocol evolves in a decentralized manner that reflects the interests of its user base. ^{[4] [1]}

Partnerships

• Information on confirmed partnerships is not available in the provided source materials. ^{[4] [5] [3]}