Deeptech delivering climate and economic resilience

Climate change is one of the most pressing issues of our time, and technology will play a crucial role in mitigating its effects. As we become more aware of the need to reduce our carbon footprint, deeptech startups are developing innovative solutions to help us transition to a more sustainable future. From carbon capture to renewable energy, these startups are working on cutting-edge technologies that hold the promise of delivering climate resilience. In this blog post, we will explore some of the most promising deeptech startups working on climate change.

What is deeptech?

Deep tech, also known as deep technologies, is a term used to describe technology based on deep science and engineering. Deep tech is often difficult to commercialize due to its complex nature, but it has the potential to solve some of the world’s most pressing problems.

Some examples of deep tech include artificial intelligence, quantum computing, and blockchain technology. These technologies are still in their early stages of development, but they can potentially transform industries and societies.

Deep tech can deliver climate resilience by providing solutions to the challenges posed by climate change. For example, artificial intelligence can be used to develop better weather forecasting models that can help us prepare for extreme weather events. Quantum computing can be used to develop new materials that are more resistant to extreme temperatures. And blockchain technology can be used to create a decentralized energy grid that is less vulnerable to disruptions.

Deeptech is technology based on a deep understanding of the underlying science and engineering principles. It is often used to solve complex problems or to create new applications or products. Deep tech has the potential to deliver real-world solutions that make our world more resilient to the effects of climate change.

Asset class market resilience

DeepTech is a long-only asset class resilient to market shocks because it is driven by fundamental science and technology trends independent of the business cycle. Climate tech, hardware, agriculture, and the built environment are all sectors transformed by deep technological innovation. For example, climate tech is developing new ways to generate energy, capture carbon, and adapt to climate change. Hardware is becoming more powerful and efficient thanks to advances in semiconductor technology. Agriculture is being revolutionized by precision farming, gene editing, and other cutting-edge technologies. And the built environment is being transformed by smart buildings, autonomous vehicles, and other cutting-edge technologies. These sectors are just a few examples of how DeepTech drives fundamental changes in the world economy. DeepTech companies are developing breakthrough technologies that are reshaping entire industries. They are creating new markets and unique opportunities for investors who understand the financial power of DeepTech to portfolios.

The need for deeptech in the fight against climate change

In a world where the effects of climate change are becoming more and more apparent, it is clear that we need to find ways to mitigate its impact. One way to do this is through the accelerated development of deeptech.

In 2021, 50 iconic founders and investors shared their insights on how the world can tackle the planetary “Code Red” with over 2,000 participants at the inaugural SOSV Climate Tech Summit. In 2022, we have gathered again for the next 2 days to explore the challenges and opportunities ahead as the world moves into a global recession, and fails to deliver on its climate commitments.

The need for hardware-based deeptech in the fight against climate change is evident in many different areas. For example, in energy production, deeptech can be used to develop new renewable energy sources or improve existing ones, like that of MGA Thermal. A Newcastle-based pioneering team spun out of the University of Newcastle, the MGA Thermal team are now transforming electric grids with their long-duration solar thermal materials; they provide a pathway to coal fire power conversion and green hydrogen applications.

In transportation, deeptech can be used to develop more fuel-efficient vehicles or alternative modes of transportation.

In the area of agriculture, deeptech can be used to develop more efficient methods of food production or help farmers adapt to changing conditions.

There are many other examples where deeptech can play a role in mitigating the effects of climate change. The important thing is that we continue to invest in research and development so that we can find new and innovative ways to address this global challenge.

How deeptech can help deliver climate resilience

Climate change is a reality that we already feel the effects of, and it will only become more severe in the future. This means that we need to find ways to become more resilient to the impacts of climate change, and deeptech can help us do this.

There are many different types of deeptech, but one area that is particularly relevant for climate resilience is data science and artificial intelligence (AI). These technologies can help us better understand and predict the effects of climate change and identify vulnerable areas and populations. AI can also be used to develop early warning systems for extreme weather events so that people can be evacuated to safety before they are hit.

Another area of deeptech that can help with climate resilience is renewable energy. As the world moves away from fossil fuels, renewables will become an increasingly important part of our energy mix. Solar, wind and hydropower can help make our societies more resilient to climate change by providing clean energy that is not affected by extreme weather events.

There are many other examples of how deeptech can help us become more resilient to climate change. By harnessing the power of technology, we can start to build a future that is better prepared for the challenges ahead.

What are some examples of deeptech solutions?

Deeptech solutions often involve interdisciplinary teams of experts and require significant investment.

Some examples of deeptech solutions include:

1. using artificial intelligence (AI) to develop better forecasting models for extreme weather events;

2. using big data and machine learning to improve disaster response and relief efforts;

3. developing new materials and technologies to make buildings more resistant to extreme weather events;

4. using nanotechnology to create more efficient and durable solar panels;

5. developing new methods of storing energy, such as using hydrogen fuel cells;

6. creating early warning systems for communities at risk of natural disasters;

7. developing new methods of food production that are resilient to climate change;

8. designing cities with resilience to extreme weather in mind; and

9. creating insurance products that better protect against climate-related risks.

The future of deeptech and climate change

The future of deeptech is tied to climate change. As the world becomes increasingly aware of the need to address climate change, deeptech will play an important role in delivering solutions that help people adapt to a changing climate.

There are 5 key areas where we are investing in deeptech to help deliver climate resilience:

1. Resource efficiency: Deeptech can help us use resources more efficiently, reducing our environmental impact.

2. Clean energy: Deeptech can help us transition to clean energy sources, reducing our greenhouse gas emissions.

3. Climate adaptation: Deeptech can help us adapt to the changing climate, enabling us to live and work in a more resilient way.

4. Sustainable agriculture: Deeptech can help us produce food sustainably, ensuring that we can continue to feed ourselves as the climate changes.

5. Water security: Deeptech can help us secure access to clean water, even as the climate changes and water becomes increasingly scarce.


Deeptech is an important tool in the fight against climate change. By helping us to better understand and predict the impact of weather events, deeptech can help us to make our infrastructure and communities more resilient to extreme weather. In the face of a changing climate, deeptech will become increasingly essential in helping us to adapt and thrive.

Deeptech has the potential to transform the way we live and work, and it will be crucial in helping us build a more sustainable future for our loved ones, our communities, and our planet.C


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