Author: LittleFox
DeSci (Decentralized Science) has brought disruptive changes to the traditional research field with its unique model and huge potential. With blockchain and Web3 technology as its core driving force, DeSci is committed to building a more open, fair, transparent, and collaborative scientific research ecosystem. It breaks many of the shackles of traditional scientific research, such as centralized resources, opaque information, and limited cooperation, making every aspect of scientific research more democratic. Whether it is research funding, result review, or data storage and dissemination, all are revitalized under the new paradigm.
Among the many projects active in the DeSci field, Oogwai is highly representative. Through deep cultivation in AI and longevity research, Oogwai deeply integrates blockchain technology with AI technology, and perfectly interprets the core concept of DeSci through a series of innovative practices, such as the tokenization of intelligent knowledge and intellectual property (IP), the construction of democratic funding mechanisms, and active participation in decentralized governance. It not only provides strong data support and diversified financing channels for scientific research projects, but also optimizes the decision-making process through the participation of top scientists, promoting the efficient transformation of scientific research results. Oogwai’s successful practice sets a model for the entire DeSci field and provides valuable experience and reference for the industry’s development. Next, we will deeply analyze the development panorama of the DeSci field and Oogwai’s outstanding performance in it, exploring the infinite possibilities and development trends of this emerging field.
The background and development potential of the DeSci track
The drawbacks of the traditional scientific research system
Traditional scientific research has exposed many problems in its long-term development process, which have gradually become bottlenecks that restrict scientific progress. In terms of resource allocation, resources are highly concentrated in the hands of a few large institutions and academic elites, resulting in obvious resource monopolies. Small research teams and emerging researchers often find it difficult to carry out in-depth and innovative research work due to a lack of necessary funds, equipment, and data support, which greatly limits the diversity and comprehensiveness of scientific research innovation.
In terms of management system, the traditional scientific research management is relatively rigid, with cumbersome approval process, slow decision-making mechanism, and unreasonable evaluation system for achievements, which leads to low efficiency in the progress of scientific research projects. Many forward-looking research ideas are aborted at the embryonic stage due to institutional barriers, and cannot be fully practiced and developed.
In the field of knowledge dissemination, the paywall of academic journals, complex copyright rules, and limited channels of communication seriously hinder the rapid sharing and wide application of scientific research results globally, resulting in asymmetry of research information and lag in knowledge dissemination. The existence of these problems makes it urgent for the traditional scientific research system to undergo a comprehensive and profound transformation to adapt to the rapid development needs of scientific innovation in modern society.
The Definition and Core Concepts of DeSci
DeSci, or Decentralized Science, is an innovative model that deeply integrates blockchain and Web3 technologies into the process of scientific research and collaboration. Its core definition and concept aim to build a more democratic, open, transparent, and collaborative scientific research ecosystem. Taking Ethereum as an example, its elaboration on decentralized science emphasizes the construction of public infrastructure and optimizing the entire process of research activities, from funding, creation, review, storage to dissemination, in a fair and just manner. In this ecosystem, scientists are incentivized to openly share their research findings and can receive corresponding recognition and rewards. At the same time, the barriers to participating in research are significantly lowered, and anyone with certain abilities and passion can easily engage in scientific exploration and contribute to scientific research, regardless of their personal background and identity.
DeSci’s technical support and innovative applications
Blockchain technology ensures data security and transparency
As the cornerstone of DeSci, blockchain technology provides a secure and transparent platform for recording and sharing scientific research data. Its immutable nature ensures the integrity and authenticity of the data, effectively preventing data tampering and forgery, and establishing a solid foundation of data trust for scientific research. For example, decentralized storage technologies like the InterPlanetary File System (IPFS) enable distributed storage of academic resources. This storage method avoids the risk of data loss caused by single-point failures and facilitates global access and sharing of data for researchers. Whether in remote small research institutions or large research centers, scientists can equally access the academic resources they need, greatly promoting the fair distribution of research resources and global scientific collaboration.
2 Smart Contract Optimization of Scientific Research Process and Incentive Mechanism
The application of smart contracts in DeSci has brought automation and intelligence to the scientific research process. Through smart contracts, flexible and diverse incentive mechanisms can be created. Based on objective indicators such as the actual impact of the paper, such as the number of reads, downloads, and citations, corresponding rewards can be automatically allocated to the authors. This data-driven reward method can more accurately reflect the value of scientific research results and stimulate the enthusiasm of researchers. At the same time, smart contracts can also provide fair and reasonable compensation for peer review work, improving the efficiency and transparency of the review process. In the traditional peer review process, there are often problems such as long review cycles and subjective review opinions. The application of smart contracts makes the review process more standardized and objective, ensuring a fair and objective quality control of scientific research results and promoting overall improvement in research quality.
3 Scientific research results promote resource circulation and sharing through ‘tokenization’
The ‘tokenization’ of research results is a major innovative initiative of DeSci. It transforms research data, intellectual property, etc. into digital assets, playing an important role in promoting the circulation and sharing of resources. Tokenized research assets can be traded on decentralized markets, allowing the value of research results to be more fully realized. On the one hand, this opens up new financing channels for research projects, attracting more funds and resources into the research field. Investors can participate in promising research projects by purchasing research tokens and sharing the profits after the project succeeds. On the other hand, tokenization also promotes the sharing of research data and results. Researchers can monetize their research results by selling or licensing their research tokens, encouraging them to actively share data, promoting data circulation and reuse, and forming a virtuous cycle of research resources.
The extensive influence and successful case studies of DeSci
1 Reshaping the pattern of scientific research funding and resource allocation
DeSci has broken the centralized pattern of resources and opportunities in the traditional scientific research system, making the allocation of research funds and resources more fair and reasonable. In the traditional model, research funding mainly relies on the funding and support of a few large institutions, making it difficult for small teams and emerging projects to obtain sufficient support. However, DeSci, through decentralized crowdfunding platforms and fund mechanisms based on pledging, such as the model adopted by BioDAO, diversifies the financing channels for research projects. Whether it is a large research institution or a small research team, as long as the project is innovative and promising, there are opportunities to obtain funding and resource allocation. This fair funding distribution mechanism greatly stimulates the vitality of scientific research innovation, allowing more innovative ideas to be put into practice and validated, promoting a diversity of research in the field of science and technology.
2 Improve research accessibility and transparency
DeSci significantly improves the accessibility and transparency of research. Through decentralized academic publishing platforms, such as those built by some DeSci projects, researchers can directly publish their research findings without going through the cumbersome traditional journal review process, greatly shortening the publication cycle of papers. This enables research results to be understood and applied by global peers more timely, accelerating the speed of knowledge dissemination. At the same time, the decentralized storage and sharing mechanism of research data ensures the openness and transparency of the data. Global researchers can access and verify research data in real time, promoting the reproducibility and verifiability of the research process. This high level of transparency helps to establish a more rigorous research culture and improve the credibility of research results.
3 Promote global scientific research collaboration and innovation
DeSci provides a more convenient and efficient platform for global scientific research collaboration, effectively promoting the vigorous development of interdisciplinary and cross-regional scientific research cooperation. In the DeSci ecosystem, researchers can easily collaborate with peers from different regions and academic backgrounds. For example, in some complex biomedical research projects that require the integration of multidisciplinary knowledge in biology, medicine, computer science, etc., the DeSci platform can facilitate seamless collaboration among experts from different fields. By sharing data, jointly developing research plans, optimizing resource allocation, accelerating the progress of research projects, and fostering more innovative scientific research results, new ideas and methods are provided for solving global complex problems.
4 Analysis of Successful Case Studies
Molecule: Molecule is a decentralized biotechnology research funding platform that has established a vibrant ecosystem. On this platform, biotechnology projects can attract investors and supporters from around the world by showcasing their research plans and potential. Through tokenization, investors can participate in early-stage project investments and receive corresponding returns upon project success. This model not only provides ample financial support for biotechnology research, but also promotes the rapid transformation and application of scientific research results. For example, some projects funded on the Molecule platform have successfully developed new biopharmaceutical technologies, bringing new hope for disease treatment.
Data Lake: Data Lake has built a medical data donation platform using blockchain technology, supporting medical research and artificial intelligence development. In the medical field, a large amount of patient data is scattered across various medical institutions, making it difficult to effectively integrate and utilize. The Data Lake platform, in a decentralized manner, encourages patients to voluntarily donate their medical data and ensures the security and privacy protection of the data. These data can provide rich samples for medical research, helping researchers better understand the pathogenesis and development patterns of diseases, and thus develop more effective treatment methods. At the same time, using artificial intelligence technology to analyze these data can also uncover potential medical knowledge and patterns, providing strong support for medical innovation.
VitaDAO: VitaDAO focuses on funding early longevity research and has made significant progress in the field of aging and longevity science. VitaDAO’s first longevity product has been approved by the Thai FDA, marking an important milestone for DeSci in practical applications. Through a decentralized funding and project management model, VitaDAO is able to aggregate resources globally to support innovative yet high-risk longevity research projects. The successful advancement of these projects brings new breakthroughs in extending human healthspan and treating age-related diseases, demonstrating the immense potential of DeSci in driving research development in specific fields.
ResearchHub: ResearchHub is a scientific research incentive platform, similar to GitHub in the field of scientific research. On this platform, researchers can share their research results, code, data, and other resources, and also evaluate and provide feedback on the work of other researchers. By establishing such an open community, ResearchHub promotes communication and collaboration among researchers, accelerating the dissemination of knowledge and the generation of innovation. For example, in emerging scientific fields such as quantum computing and artificial intelligence ethics, researchers on the ResearchHub platform contribute to the development of theories and practices in these fields by sharing the latest research progress and perspectives.
Challenges and Response Strategies Facing DeSci
1 Technical Challenge
Performance and scalability bottlenecks: Blockchain technology faces performance challenges when dealing with large-scale scientific research data and high-concurrency transactions. For example, in scenarios involving massive gene data analysis or global scientific collaboration, blockchain networks may experience transaction processing delays, low throughput, and other issues that affect the efficiency of scientific research work. Addressing this issue requires continuous optimization of underlying blockchain technologies, such as adopting more efficient consensus algorithms, improving network bandwidth, etc., to meet the high-performance computing and fast data processing needs of scientific research operations.
Usability to be improved: The current operation interface and user experience of the DeSci platform may not be user-friendly enough for ordinary researchers. The complex concepts and operational procedures of blockchain technology make it difficult for many researchers to use DeSci tools and platforms. This requires the development of a more concise and user-friendly front-end interface, providing detailed user guides and training resources, reducing the threshold for researchers to use DeSci technology, and promoting its wide application in the field of scientific research.
2 Academic and Cultural Challenges
Deep-rooted traditional concepts: Traditional academic evaluation system and research concepts are deeply rooted in the minds of researchers, such as the system that takes the number of papers published and the impact factor as the main evaluation criteria. This notion makes many researchers less receptive to the new model and new concept of DeSci, and they tend to follow the traditional research path. To change this situation, it is necessary to strengthen the promotion and education of DeSci, demonstrate its advantages in promoting research innovation, fairness, and achievement transformation, gradually guide researchers to change their views, and accept and adapt to the research mode of DeSci.
Trust Establishment Difficulties: In a decentralized research environment, it takes time for researchers to establish trust with each other. Without endorsement from traditional research institutions, researchers may have doubts about projects and partners on the DeSci platform. Therefore, it is necessary to establish a sound reputation evaluation mechanism and community governance norms, enhance the trust between researchers through public and transparent project information display, mutual evaluation among community members, and create a good atmosphere for scientific research cooperation.
3 Policy and Regulatory Challenges
Lack of Policy Support: Currently, many countries and regions have not yet established clear policies and regulations for DeSci, which makes the DeSci project face certain policy uncertainties in the development process. The lack of policy support may lead to difficulties in fundraising and compliant operations for the project. Governments and relevant regulatory agencies should actively pay attention to the development trend of DeSci, formulate appropriate policy frameworks, encourage and regulate the development of DeSci projects, and provide a stable policy environment for them.
Unclear Regulatory Rules: The regulation of blockchain technology and cryptocurrencies is continuously being explored and improved globally. DeSci, as an emerging field involving both, faces the issue of unclear regulatory rules. For example, the regulatory requirements for aspects such as the issuance and trading of research tokens, and data privacy protection, are not yet clear. This requires regulatory authorities to strengthen communication and collaboration with the DeSci community to jointly formulate reasonable regulatory rules. This is essential to safeguard scientific research innovation and investor rights, while also preventing potential financial and data security risks.
4 Coping Strategies and Development Direction
Technological innovation and optimization. Continuously invest in R&D resources to improve blockchain technology, enhance its performance and scalability. Explore the integration of emerging technologies such as zero-knowledge proofs, sharding, etc., to address the current technological bottlenecks. Meanwhile, focus on user experience design to create a more convenient and efficient DeSci platform, attracting more researchers to participate.
Academic and cultural guidance and transformation. Strengthen the dissemination and education of the DeSci concept by holding academic seminars, training courses, and popular science activities. Establish a new academic evaluation system guided by the practical application value and social impact of scientific research results, and encourage researchers to actively participate in decentralized scientific research cooperation, promoting the gradual transformation of academic culture.
Policy advocacy and compliant development. The DeSci community should actively communicate with the government and regulatory agencies, demonstrate the positive significance and development potential of the project, and promote the attention and support of DeSci’s development by policy makers. At the same time, the project team should proactively comply with existing laws and regulations, strengthen their own compliance management, and ensure operation within a legal and compliant framework.
Community building and win-win cooperation. Enlarge the DeSci community, attract more participants from different backgrounds, including researchers, investors, developers, and the general public. Strengthen collaboration and communication within the community to form a diversified community ecosystem. Through the joint efforts of community members, solve problems encountered in the development process and promote the sustainable development of the DeSci project.
Oogwai’s outstanding performance and typical cases in the DeSci track
(I) Oogwai Project Overview
Oogwai is a project with a unique position and innovative model in the field of DeSci, focusing on the combination of AI and longevity research. It is committed to promoting scientific research innovation and result transformation through blockchain technology and community-driven approach. Its core goal is to provide personalized longevity solutions for global users while creating a fairer and more efficient research environment for researchers.
(2) The key role of Oogwai in the tokenization of intelligent knowledge and intellectual property (IP)
1 Data Provision and AI Evaluation Support
Oogwai provides rich and high-quality longevity-related data for BioDAO’s deep learning models and neural network analysis. These data cover multiple dimensions such as users’ genetic information, lifestyle data, and health tracking data, providing a solid data foundation for BioDAO to accurately assess biotechnology projects. For example, when evaluating a new anti-aging drug development project, the data provided by Oogwai can help BioDAO analyze the potential effects of the drug in populations with different genetic backgrounds and lifestyles, thus enabling a more precise judgment of the project’s scientific validity and market potential.
2 Drive the process of tokenizing IP
With its data advantage, Oogwai empowers BioDAO to tokenize biotechnology IP assets. In this process, Oogwai’s technical team works closely with BioDAO to develop a blockchain-based tokenization model. Through this model, the intellectual property of biotechnology projects is divided into tradable tokens, allowing investors to participate in project investment by purchasing these tokens. This tokenization approach not only provides new financing channels for projects but also decentralizes project ownership, attracting more investors and stakeholders to participate in biotechnology projects. For example, a biotechnology company specializing in cell regeneration technology successfully raised a large amount of funding for further research and clinical trials, accelerating the industrialization process of the project, through cooperation with Oogwai and BioDAO to tokenize its core technology IP.
(III) Oogwai’s Active Practice in the Democratic Funding Mechanism
1 Community-driven and resource integration
As a community-driven AI + Longevity meme coin, Oogwai has a large and active community. This community not only includes research enthusiasts and investors, but also attracts many ordinary users who are interested in the field of health and longevity. Oogwai fully utilizes the power of the community, integrates resources from all parties, and builds a display and promotion platform for the biotechnology projects supported by BioDAO. Through the active dissemination and participation of community members, the project can attract more attention and support, and attract more funding. For example, the Oogwai community regularly holds project roadshow events, inviting project teams supported by BioDAO to showcase project progress and prospects to community members, inspiring community members’ enthusiasm for investment and raising funds for the project.
2 Explore innovative financing models in cooperation with top institutions
Oogwai actively cooperates with renowned longevity research organizations such as the Buck Institute for Aging Research and Lifespan.io to explore innovative applications of decentralized financing models in the field of aging and longevity science. These collaborations aim to combine Oogwai’s blockchain technology, AI analysis capabilities, and the professional research knowledge of top research institutions to build a more efficient, fair, and transparent financing ecosystem. For example, during the collaboration, Oogwai uses its AI technology to conduct risk assessments and market potential analyses of longevity research projects, providing data support for investment decisions. At the same time, it collaborates with partner institutions to design blockchain-based crowdfunding mechanisms, ensuring the transparency of fund raising and usage processes, and providing timely and sufficient funding support for more promising aging and longevity science research projects, accelerating progress in this field.
(4) Oogwai’s Important Contribution to Decentralized Governance
1 Scientists participate in and optimize decision making
The Oogwai ecosystem brings together many top scientists, each with profound expertise and rich practical experience in their respective fields. These scientists actively participate in the decentralized governance process of BioDAO, providing professional opinions and forward-looking suggestions for key decisions such as project development strategies, research directions, and technical routes. For example, when formulating BioDAO’s focus on longevity research for the next few years, Oogwai’s team of scientists proposed focusing on the research of cellular aging mechanisms and the development of longevity gene editing technology based on the analysis of global longevity research trends and their own research experience. This suggestion was widely recognized by the BioDAO community and ultimately confirmed as a focus area for funding, ensuring that the research project is closely aligned with forward-looking and practically valuable directions.
Promote community interaction and ecosystem stability
The participation of Oogwai scientists not only improves the quality of decision-making, but also promotes deep interaction and cooperation among BioDAO community members. They disseminate longevity science knowledge to community members through sharing research results, organizing academic lectures, etc., and inspire community members’ interest and enthusiasm in participating in scientific research projects. At the same time, in the process of community governance, they actively coordinate the interests of all parties, resolve potential conflicts and disputes, and maintain the harmony and stability of the community. This positive interaction and stable community environment lay a solid foundation for the sustainable development of BioDAO and enhance the scientificity, stability, and sustainability of the entire DeSci ecosystem.
(V) Demonstration of Oogwai’s practical application cases
1 AI Health Assistant: Provider of Personalized Longevity Plans
The AI Health Assistant developed by Oogwai is a major highlight in its practical application. The assistant draws on Dario Amodei’s vision in ‘Machines of Loving Grace’ and integrates advanced Longevity LLM system and graph neural network technology. It can perform in-depth analysis of users’ genetic and lifestyle data to provide highly personalized longevity recommendations. For example, for a user with specific genetic mutations and unhealthy lifestyle habits, the AI Health Assistant can alert them to potential health risks based on their genetic data, such as a predisposition to certain diseases. At the same time, it combines their lifestyle data, such as chronic lack of sleep, lack of exercise, and an unhealthy diet structure, to create a tailored improvement plan for the user. It may suggest gradually adjusting their sleep schedule, adding moderate exercise like brisk walking or yoga to their daily routine, and recommending a nutrition plan suitable for their physical condition, in order to reduce the risk of illness and improve overall health.
In the process of data processing, Oogwai ingeniously uses Shiba Inu’s fully homomorphic encryption (FHE) technology to achieve efficient calculation and analysis of encrypted data while ensuring data privacy and security. This means that users’ sensitive information is strictly protected throughout the analysis process and will not be leaked or abused. At the same time, the system can process data from health trackers in real time on the L2 blockchain, such as heart rate, sleep quality, and number of steps. No matter where the user is, as long as their health tracker is connected to the system, the AI health assistant can promptly obtain the latest data and quickly adjust longevity recommendations based on these real-time data and the user’s personalized model. If the user’s daily step count significantly decreases, the system may remind the user to maintain physical activity; if the sleep quality is poor, the assistant may provide some tips for improving sleep. In this way, it truly achieves seamless integration of technology and health management, providing users with comprehensive and personalized health services.
2 Longevity Education Platform: A Bridge Between Popularization and Participation
Oogwai’s Longevity education platform creatively combines Internet meme culture with rigorous academic content, creating an educational and entertaining popular science learning platform. Based on advanced AI technology, the platform transforms complex longevity research concepts into vivid and interesting meme content that is easy to understand, attracting the attention and participation of a wide range of users. For example, for the complex biological concept of cellular aging, the platform may create an imaginative meme that compares cells to a small factory, where over time, the machinery (organelles) in the factory gradually ages and deteriorates, vividly explaining the process of cellular aging.
At the same time, Longevity LLM provides professional interpretation to ensure the scientificity and accuracy of the content. For example, the platform ingeniously combines the classic master Oogway image with the latest findings in aging research, creating a series of content that is both creative and interesting, and has deep scientific connotations. When introducing research on longevity genes, Oogway’s wise words may be used to introduce and then explain the mechanism of longevity genes and the current research progress in detail. In this way, over 5000 users have been successfully attracted and converted into active participants and disseminators of longevity research.
Many users who were originally unfamiliar with longevity science became interested in longevity research after encountering these interesting meme contents. They not only learn more professional knowledge on the platform, but also actively participate in community discussions and share their ideas and experiences. Some users are even inspired to actively participate in related scientific research projects, such as providing their own life data for research or participating in scientific crowdfunding activities, contributing their own strength to longevity research. This not only enhances the public’s awareness and attention to longevity science, but also inspires more people’s interest and enthusiasm for scientific research, making positive contributions to the popularization and development of longevity science, and also providing useful reference for the DeSci project in public education and promotion.
- Outlook for DeSci and Oogwai
(1) Development trend of DeSci
With the continuous progress of technology and the continuous growth of social demand, DeSci is expected to achieve greater breakthroughs in the future. At the technical level, blockchain technology will continue to optimize, and performance and scalability will be significantly improved to better meet the needs of scientific research data processing and collaboration. At the same time, DeSci will deeply integrate with emerging technologies such as artificial intelligence and big data analysis, further improving scientific research efficiency and innovation capabilities. For example, through artificial intelligence algorithms, more accurate mining and analysis of scientific research data can be conducted, accelerating the process of discovering research results.
In terms of application, DeSci will expand to more disciplines and industries, not just limited to biotechnology and longevity research. In fields such as energy, environment, and materials science, DeSci’s model will also play an important role in promoting interdisciplinary research and innovative solutions. For example, in the field of energy, through a decentralized research platform, global researchers can collaborate to accelerate the research and promotion of clean energy technologies.
(2) Oogwai’s growth potential
Oogwai, with its unique advantages and innovative practices in the DeSci field, has great growth potential. In terms of technological innovation, Oogwai will continue to invest in research and development to optimize its AI health assistant and Longevity education platform, enhancing user experience and service quality. For example, further improving the algorithm of the AI health assistant to provide more precise and personalized health advice; enriching the content of the Longevity education platform to cover more longevity research areas and cutting-edge topics.
In terms of cooperation and expansion, Oogwai will establish partnerships with more research institutions, enterprises, and communities. In addition to existing collaborations with BioDAO, Buck Institute for Aging Research, etc., it will also seek opportunities to collaborate with other internationally renowned research organizations to jointly carry out large-scale research projects and promote the in-depth development of longevity research. At the same time, Oogwai will actively expand its community building efforts globally, attracting more users and developers to participate in the project and strengthen the ecosystem.
(3) Jointly promote the reform of scientific research
The joint development of DeSci and Oogwai will have a profound impact on the transformation of scientific research. They will jointly promote the transformation of the scientific research model from the traditional centralized and closed mode to the decentralized and open mode. This transformation will make scientific research more closely related to social needs and improve the efficiency of transforming scientific research results. For example, through decentralized funding mechanisms and community participation, research projects can obtain funding support and market feedback more quickly, accelerating the process of research results from the laboratory to the market.
In terms of global scientific research cooperation, DeSci and Oogwai will break geographical and disciplinary boundaries and promote deep collaboration among global scientific researchers. Whether they are researchers from developed countries or developing countries, they can participate in scientific research projects on this platform on an equal footing, share scientific research resources, and jointly tackle global scientific challenges. For example, in response to global public health emergencies, the DeSci platform can quickly integrate global scientific research capabilities, accelerate vaccine research and development, and formulate disease prevention and control strategies.
(4) Challenges and Response Measures Faced
However, DeSci and Oogwai will still face some challenges in the development process. Technical challenges persist, such as the performance improvement of blockchain technology, data security, and privacy protection, which need continuous attention and resolution. At the same time, the uncertainty of the policy and regulatory environment may also affect the development of the project. In terms of academic culture, the transition of traditional concepts takes time, and it is an important issue to further enhance the recognition and participation of researchers in the DeSci model.
To tackle these challenges, the DeSci community and Oogwai project team need to work together. In terms of technical research and development, we need to increase investment, attract more technical talents to participate, and continuously improve and perfect the technical architecture. In terms of policy advocacy, we need to actively communicate with governments and regulatory agencies to promote the establishment of a policy and regulatory environment that is conducive to the development of DeSci. In terms of academic and cultural construction, we need to strengthen publicity and education, hold more academic exchange activities, showcase the advantages and achievements of DeSci, and promote the gradual transformation of academic culture.
In short, the rise of the DeSci track has brought new opportunities and changes to the research field. Oogwai, as a typical representative, has demonstrated strong innovation and development potential through its positive practices in intelligent knowledge tokenization, democratized funding mechanisms, and decentralized governance. In the future, DeSci and Oogwai are expected to jointly promote innovation and development in the research model, making greater contributions to human health, scientific progress, and social development.
