Why We Need More Deep Tech Ventures with Regenerative Approaches: An Invitation to Scientific Entrepreneurship

6 min readApr 17, 2024

The world is facing unprecedented challenges, from the climate crisis to global health issues. In the midst of this upheaval, it becomes clear that conventional approaches are insufficient to solve these problems. This is where disruptive innovations come into play — technological breakthroughs that disrupt old paradigms and open up new pathways for solutions. However, the path from idea to widespread application is arduous, and this is where Deep Tech Ventures and the individuals behind them, the sciencepreneurs, come in.

Particle accelerator
Credits: Antonio Vivace via Unsplash

The Fundamental Principles of Deep Tech Ventures

Deep Tech Ventures are companies that develop new products and services based on deep scientific insights and technological innovations. Unlike conventional startups, which often build upon existing technologies, implementing Deep Tech ideas often requires years of intensive research and development. Sciencepreneurs are the pioneers in this field — visionaries who bridge the gap between science and business. They are experts in their fields, whether it be artificial intelligence, biotechnology, or materials science.

However, merely gathering research findings is not enough. That’s why, at COSMICGOLD, we say: Insights demand action. Actions are required to address problems and derive the greatest benefit from research findings. This forms the connection to the economy — entrepreneurial skill is crucial to translate research findings into innovative products or services that create real value for society. Only through the concrete implementation of insights into actions can sciencepreneurs unleash their full potential and have a sustainable impact on the world.

The Special Opportunities of Deep Tech Ventures Regarding Their Disruptive Potential

Disruptive innovations are fundamental changes in a market or industry that replace or render existing products or services obsolete with novel approaches. Therefore, Deep Tech Ventures offer high disruptive potential as they are based on groundbreaking scientific insights and technologies that can fundamentally change conventional industries and business models. Their focus on long-term research and development enables them to create innovative solutions to complex problems that can have far-reaching impacts on various sectors of society.

However bleak it may seem at first glance, there are significant opportunities therein: because disruptive innovations have the potential to promote social equality and the common good by overcoming previous barriers and providing access to products, services, and opportunities to new populations. This happens in various ways:

Accessibility and Inclusion:
Disruptive innovations often aim to make products and services more accessible and affordable. This can mean that people with lower incomes or from disadvantaged communities gain access to technologies that were previously unaffordable for them. An example of this is the spread of mobile phones in developing countries, which has enabled people to access education, financial services, and healthcare that were previously difficult to reach.

Combatting Inequalities:
Disruptive innovations can also help to combat existing inequalities and injustices by offering new ways to address societal problems. An example of this is social enterprises that use innovative technologies to address issues such as poverty, environmental pollution, or inadequate healthcare. By creating affordable and sustainable solutions, these innovations can help improve the common good and enhance the quality of life for many people.

Access to Technologies for Underserved Communities:
Reverse engineering can be used to analyze and adapt existing technologies to make them more accessible to underserved communities. This could include, for example, adapting medical devices for use in remote regions or developing affordable agricultural tools for small-scale farmers in developing countries.

Empowering Local Communities:
Disruptive innovations can empower local communities by creating new opportunities for economic development and employment. This can be achieved by promoting small businesses and social enterprises that utilize local resources and talents to offer innovative products and services. These businesses can help improve the standard of living in communities and strengthen social cohesion.

Environmental Friendliness and Sustainability:
Disruptive innovations can make a positive contribution to environmental protection by promoting resource-efficient technologies and sustainable business models. By developing clean energy technologies, recycling solutions, and environmentally friendly products, these innovations can help reduce the ecological footprint and protect the environment. This benefits not only society as a whole but also future generations.

Overall, disruptive innovations offer a variety of opportunities to promote social equality, improve the common good, and build a fairer and more sustainable society. By taking a holistic approach to these aspects, we can harness the full potential of Deep Tech innovations to effect positive change in the world.

The Transfer from Science to Application

A crucial step for the success of a Deep Tech Venture is the transfer from laboratory scale to commercial application. This requires not only technical sophistication but also a deep understanding of market needs and skillful implementation of research findings into practical applications.

An outstanding example of this is Carbon Engineering, which emerged from the idea of ​​removing CO2 from the atmosphere and converting it into usable products. Through years of research and development, they managed to perfect their technology and now pave the way for a scalable solution that could play a significant role in the fight against climate change.

The technology transfer from research to application poses a series of challenges for sciencepreneurs. They often face the difficulty of translating complex scientific insights into marketable products or services. In doing so, they must not only overcome technological barriers but also consider legal, financial, and regulatory aspects. Additionally, it can be challenging to convince investors of the feasibility and potential of their ideas, especially when it comes to long-term development cycles. However, these challenges are not insurmountable but require careful planning, collaboration, and perseverance — fundamental elements of the research process and approaches that researchers know from their daily work.

The Importance of Regenerative Business Models

When developing new technologies, it is crucial to consider not only short-term gains but also the long-term impacts on our planet. This is where regenerative business models come into play — approaches that not only cause less harm but actively contribute to restoring and protecting the environment.

In conjunction with disruptive Deep Tech innovations, regenerative business models open up new opportunities to address environmental issues while achieving economic success. By using advanced technologies such as artificial intelligence or biotechnology and by applying principles of biomimicry, such as developing materials inspired by natural structures, companies can develop innovative solutions that are both ecologically sustainable and economically profitable.

An outstanding example is the company Biontech, which specializes in the development of mRNA-based technologies for combating cancer and infectious diseases such as a COVID-19 vaccine and develops innovative mRNA technologies that not only revolutionize the medical landscape but can also have a positive impact on the environment. By using mRNA technology, vaccines and therapies can be developed based on biological processes and potentially consume fewer resources and produce less waste than conventional approaches. Furthermore, Biontech is continuously working to improve its production processes to increase efficiency and minimize environmental footprint, making it a leading example of a regenerative biotechnology company.

Final Thought: Embarking on a Regenerative Future

In a time when the world is facing unprecedented challenges, we have the opportunity and responsibility to develop innovative solutions. Sciencepreneurs have the unique chance to shape the future — by expanding the boundaries of knowledge while respecting planetary boundaries. By combining regenerative business models with disruptive Deep Tech innovations and always focusing on sustainability and the common good, we can together create a world that is not only economically successful but also ecologically and socially just. Let us perceive challenges as opportunities and use our passion for research and solving complex problems to bring about positive change.

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COMPLEXITY IS BEAUTY - From science and engineering to regenerative business