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One way to know where a field is going? Take a look at what the sharpest new innovators are working on.
Good news for all of us: MIT Technology Review’s list of 35 Innovators Under 35 just dropped. And a decent number of the people who made the list are working in fields that touch climate and energy in one way or another.
Looking through, I noticed a few trends that might provide some hints about the future of climate tech. Let’s dig into this year’s list and consider what these innovators’ work might mean for efforts to combat climate change.
Power to the people
Perhaps unsurprisingly, quite a few innovators on this list are working on energy—and many of them have an interest in making energy consistently available where and when it’s needed. Wind and solar are getting cheap, but we need solutions for when the sun isn’t shining and the wind isn’t blowing.
Tim Latimer cofounded Fervo Energy, a geothermal company hoping to provide consistently available, carbon-free energy using Earth’s heat. You may be familiar with his work, since Fervo was on our list of 15 Climate Tech Companies to Watch in 2023.
Another energy-focused innovator on the list is Andrew Ponec of Antora Energy, a company working to build thermal energy storage systems. Basically, the company’s technology heats up blocks when cheap renewables are available, and then stores that heat and delivers it to industrial processes that need constant power. (You, the readers, named thermal energy storage the readers’ choice on this year’s 10 Breakthrough Technologies list.)
Rock stars
While new ways of generating electricity and storing energy can help cut our emissions in the future, other people are focused on how to clean up the greenhouse gases already in the atmosphere. At this point, removing carbon dioxide from the atmosphere is basically required for any scenario where we limit warming to 1.5 °C over preindustrial levels. A few of the new class of innovators are turning to rocks for help soaking up and locking away atmospheric carbon.
Noah McQueen cofounded Heirloom Carbon Technologies, a carbon removal company. The technology works by tweaking the way minerals soak up carbon dioxide from the air (before releasing it under controlled conditions, so they can do it all again). The company has plans for facilities that could remove hundreds of thousands of tons of carbon dioxide each year.
Another major area of research focuses on how we might store captured carbon dioxide. Claire Nelson is the cofounder of Cella Mineral Storage, a company working on storage methods to better trap carbon dioxide underground once it’s been mopped up.
Material world
Finally, some of the most interesting work on our new list of innovators is in materials. Some people are finding new ones that could help us address our toughest problems, and others are trying to reinvent old ones to clean up their climate impacts.
Julia Carpenter found a way to make a foam-like material from metal. Its high surface area makes it a stellar heat sink, meaning it can help cool things down efficiently. It could be a huge help in data centers, where 40% of energy demand goes to cooling.
And I spoke with Cody Finke, cofounder and CEO of Brimstone, a company working on cleaner ways of making cement. Cement alone is responsible for nearly 7% of global greenhouse-gas emissions, and about half of those come from chemical reactions necessary to make it. Finke and Brimstone are working to wipe out the need for these reactions by using different starting materials to make this crucial infrastructural glue.
Addressing climate change is a sprawling challenge, but the researchers and founders on this list are tackling a few of the biggest issues I think about every day.
Ensuring that we can power our grid, and all the industrial processes that we rely on for the stuff in our daily lives, is one of the most substantial remaining challenges. Removing carbon dioxide from the atmosphere in an efficient, cheap process could help limit future warming and buy us time to clean up the toughest sectors. And finding new materials, and new methods of producing old ones, could be a major key to unlocking new climate solutions.
To read more about the folks I mentioned here and other innovators working in climate change and beyond, check out the full list.
Now read the rest of The Spark
Related reading
Fervo Energy (cofounded by 2024 innovator Tim Latimer) showed last year that its wells can be used like a giant underground battery.
A growing number of companies—including Antora Energy, whose CEO Andrew Ponec is a 2024 innovator—are working to bring thermal energy storage systems to heavy industry.
Cement is one of our toughest challenges, as Brimstone CEO and 2024 innovator Cody Finke will tell you. I wrote about Brimstone and other efforts to reinvent cement earlier this year.
Another thing
We need a whole lot of metals to address climate change, from the copper in transmission lines to the nickel in lithium-ion batteries that power electric vehicles. Some researchers think plants might be able to help.
Roughly 750 species of plants are so-called hyperaccumulators, meaning they naturally soak up and tolerate relatively high concentrations of metal. A new program is funding research into how we might use this trait to help source nickel, and potentially other metals, in the future. Read the full story here.
Keeping up with climate
A hurricane that recently formed in the Gulf of Mexico is headed for Louisiana, ending an eerily quiet few weeks of the season. (Scientific American)
→ After forecasters predicted a particularly active season, the lull in hurricane activity was surprising. (New Scientist)
Rising sea levels are one of the symptoms of a changing climate, but nailing down exactly what “sea level” means is more complicated than you might think. We’ve gotten better at measuring sea level over the past few centuries, though. (New Yorker)
The US Department of Energy’s Loan Programs Office has nearly $400 million in lending authority. This year’s election could shift the focus of that office drastically, making it a bellwether of how the results could affect energy priorities. (Bloomberg)
What if fusion power ends up working, but it’s too expensive to play a significant role on the grid? Some modelers think the technology will remain expensive and could come too late to make a dent in emissions. (Heatmap)
Electric-vehicle sales are up overall, but some major automakers are backing away from goals on zero-emissions vehicles. Even though sales are increasing, uptake is slower than many thought it would be, contributing to the nervous energy in the industry. (Canary Media)
It’s a tough time to be in the business of next-generation batteries. The woes of three startups reveal that difficult times are here, likely for a while. (The Information)