Are you interested in finding the best Houston tech and innovation conversations at CERAWeek this year? Look no further than this guide. Photo by Natalie Harms/InnovationMap

If you're headed out to CERAWeek by S&P Global next week in downtown Houston, you'll want to make the most of it. Scout out Houston tech innovators at this annual energy-focused conference with this list of must-attend panels, presentations, and networking opportunities.

CERAWeek, taking place in the George R. Brown Convention Center and the Hilton Americas Hotel, is focused is on the entire energy industry, and has several themes this year — including shifting geopolitics, supply chain and infrastructure constraints, tech and innovation, future of work, and more.

Most of the innovation-themed events are organized under the Agora track. While CERAWeek is a global affair, you're sure to spot Houston-based executives, companies, and startups. Here are all the events you can't miss if learning more about Houston energy innovation is your goal.

Monday: Scaling Startups: New and efficient financial models

New startups in the energy ecosystem are providing solutions to the grand climate and climate sustainability challenges. But exciting startups need to move beyond the drawing board to eventual commercial success through necessary funding. What financial models are most successful in bringing these startups to scale?

The panel is from 12:30 to 1:10 pm on Monday, March 6. More info.

Tuesday: Chevron | Global Innovation Hubs: Where to grow your startup

The world needs a robust energy innovation ecosystem to realize decarbonization commitments. Learn about how the ecosystem’s parts are interdependent and must work together for the system to thrive and for the world to advance an energy system that’s affordable, reliable and ever cleaner.

The talk is from 2 to 2:30 pm on Tuesday, March 7. More info.

Tuesday: Gulf Coast Hydrogen Hub

With an existing ecosystem of infrastructure, producers, and consumers, the Gulf Coast has ambitions to become a global hydrogen hub. What technologies will be used? How will companies trade low-carbon hydrogen across their shared infrastructure? Join this panel to discuss how the “Energy Capital of the World” plans to lead the low carbon future.

The panel is from 5:30 to 6 pm on Tuesday, March 7. More info.

Wednesday: The Role of Private Capital in Funding the Energy Transition

While public market funds run by institutional investors have been shifting allocations toward cleantech companies, they are often hamstrung by a limited universe of pure-play cleantech equities and index-tracking methodologies that limit their ability to take longer-duration bets. The real action for energy transition investors to date has been in private equity, where funds can take duration risk and have overcome liquidity limitations by successfully raising historically large funds. The pace of private equity dealmaking, which slowed in early 2022, has accelerated sharply again for cleantech since the passage of the Inflation Reduction Act in the United States. How much of the pent-up private equity capital remains to be run through, and how will the even larger universe of public market investors gain access to these growing markets?

The event is from 7:15 to 8:20 am on Wednesday, March 8. More info.

Wednesday: Adaptation and Climate Resilience

We are witnessing a global rise in extreme weather events such as flooding, drought and heat waves. Climate change is having a variety of effects in different regions. Growing attention and investment is being directed to adaptation. What are different countries and regions doing to adapt to climate change? How will technology, policy and smart design combine to make the world more climate resilient?

The event is from 10 to 10:30 am on Wednesday, March 8. More info.

Wednesday: HETI Energy Ventures Pitch Competition

Over 15 startups and entrepreneurs will present to an audience of 1000+ investors, accelerators, and innovators for a chance to win one of many awards sponsored by Houston's energy transition community.

The event is from 10 am to 3 pm on Wednesday, March 8. More info.

Wednesday: Cities Leading the Energy Transition - World Energy Cities Partnership Mayors

Cities are at the forefront for tackling the climate and energy challenges impacting us all. Hear from the cities of Houston, Esbjerg, Perth and Calgary as they describe their visions toward a more sustainable energy plan for their communities.

The panel is from 12:30 to 1:10 pm on Wednesday, March 8. More info.

Thursday: Energy Transition Hubs: How cities are leading the charge

Increasingly, governments are transforming their communities by accelerating energy transition policies and infrastructure. Listen to how these cities are creating the blueprints for a more sustainable habitat for their citizens.

The panel is from 8:30 to 9:10 am on Thursday, March 9. More info.

BONUS: Network at these company houses

CERAWeek's Agora Partner houses exist showcase what companies are most excited about. Find your way to these three houses in between sessions to learn more about each business's tech and innovation.

  • Chevron: Back in its largest space yet, the Chevron house will highlight Chevron Technology Ventures portfolio companies, Chevron New Energies partnerships and tech experts, along with VR experiences and tech exhibits.
  • Oxy: Oxy, an international energy company based in Houston, is featuring its application of new tech, including Direct Air Capture with geologic sequestration and other CO2 utilization technologies.
  • ExxonMobil: ExxonMobil, which recently relocated its HQ to Houston, is talking about a lower-emission energy future — something that requires multiple solutions that can be implemented at scale to address some of the highest-emitting sectors of the economy.

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Intuitive Machines lands $148M as part of NASA Moon Base funding

to the moon

Houston-based Intuitive Machines has been awarded $148.3 million to deliver its Nova-C lander to the moon by 2028. The funding is part of $600 million that NASA recently awarded to three companies as part of the agency’s Moon Base Program.

The contracts aim to support sustained human presence and commercial operations on the Moon. Austin-based Firefly Aerospace was awarded $144.2 million by NASA for one mission and Pittsburgh-based Astrobotic netted $297.9 million for two lunar landings. Intuitive Machine's award is the company's sixth task order under NASA's Commercial Lunar Payload Services (CLPS) program.

“We’re building a proving ground for Moon Base operations,” Ryan Stephan, NASA’s Moon Base acting director of cargo landers, said in a news release. “Accelerating our Moon mission ordering cadence and launch opportunities enable us to move quickly to learn, iterate, and improve.”

Under the latest task order, Intuitie Machines will deliver three scientific and operational payloads to the moon, which include a:

  • Linear Energy Transfer Spectrometer (LETS) radiation monitor to gather critical environmental safety data
  • Advanced stereo cameras to analyze surface-plume interactions (SCALPSS)
  • Laser retroreflector array (LRA) for precise cislunar positioning

The funding breakdown includes a $68.6 million base contract and a $79.7 million performance incentive for Intuitive Machines.

The company says the funding will allow it to create a standardized and repeatable "lunar utility pipeline" for delivering cargo to the moon.

"We are shifting the paradigm from custom aerospace engineering to commercial mass production of lunar infrastructure," Steve Altemus, CEO of Intuitive Machines, said in a separate news release. "Our flight-proven Nova-C platform allows us to build, test, and deploy multiple landers in parallel using Industry 4.0-powered manufacturing. This contract directly advances our core mission to provide persistent, reliable, and commercial baseline of transport, connectivity, and operations that allows our customers to stay longer and achieve more on the Moon."

NASA also shared that it is exploring plans to send PROMISE, a rover based on the Mars Perseverance and Curiosity rovers, to the moon and it plans to seek proposals for additional lunar lander missions, technology demonstrations, a communications and navigation satellite network, and new science payloads to support its lunar outpost. NASA is developing its Moon Base near the lunar South Pole. The agency expects it to come to fruition sometime after 2032.

Intuitive Machines had received its last CLPS award for $180.4 million in March 2026. It will be the first mission to utilize the company's larger cargo lunar lander, Nova-D. The company was also recently awarded a $1 million grant from Maryland Gov. Wes Moore to expand its robotics operations in the state.

UT team develops wearable technology for atmospheric water harvesting

In The Air

Engineers at the University of Texas at Austin have developed a prototype jacket that harvests clean drinking water directly from the atmosphere, and it works even in the driest desert conditions.

The research, published in Science Advances, marks the latest milestone in nearly a decade of work by materials scientist and chair professor Guihua Yu and his team at the Cockrell School of Engineering's Walker Department of Mechanical Engineering and Texas Materials Institute. The wearable technology marks a significant leap: instead of a bulky, stationary machine, this jacket does the work.

Photo courtesy of UT Austin

"We have been working on atmospheric water harvesting technology for a number of years," Yu says. "This current version is even more wearable. We're transitioning from conventional, more stationary water harvesting to something truly portable and personal."

Yu's lab first published work on hydrogel-based water harvesting around 2019, and the jacket is the latest evolution of that platform, now called AirGel. Last year, the broader AirGel invention won the top prize in the graduate category of the National Collegiate Inventors Competition.

The jacket is woven with specially engineered hydrogel fibers; ultra-porous materials that attract and absorb moisture from the surrounding air much like a household desiccant. Unlike a desiccant, the material doesn't require intense heat to release that water. The hydrogel is thermally responsive, meaning a modest rise in temperature — even from mild solar heating — is enough to release the water it has captured.

Condenser test in AustinSo, somebody would be wearing the jacket, or perhaps carrying this gel-like textile as a blanket, as it passively absorbs moisture from the air. Then they would detach the textile panels and place them into a small, portable collector unit; essentially a compact heater. The water evaporates out of the textile, condenses inside the collector, and drips out as clean, drinkable water.

"It immediately becomes drinkable because it already goes through the distillation process," Yu explains.

In trials, the jacket produced between 400 and 900 milliliters of water per day depending on humidity, or roughly 14-30 ounces, nearly a quart, depending on the air's humidity. With one kilogram of the textile, the researchers found they could generate approximately 3.7-4 liters of water in arid conditions, and potentially double that in humid ones. So far, the team has tried the jacket out in very dry, semi-dry, and humid areas, and the jacket was able to pull water from each climate.

Lead researcher Chuxin Lei, a postdoctoral researcher on Yu's team and co-author on the paper, says the goal was to rethink who this technology could serve.

Portable bag contents

"Many current [atmospheric water harvesting] systems are still built as rigid or stationary platforms, making them less suitable for people who are moving, working outdoors, or operating in some remote environment. This lead us to ask whether we could build a water harvesting system that could become more like clothing — light, wearable, flexible, and naturally suited for personal use," Lei says.

The potential applications are wide-ranging. Yu's team has previously worked with the Department of Defense on water solutions for soldiers, where water logistics can be dangerous and costly. The technology could also serve hikers, emergency responders, disaster relief workers, and agricultural and field workers. Anyone who needs clean water on the go and far from infrastructure.

The team also sees a potential future where the technology complements large-scale centralized water systems rather than replacing them.

"Our solution cannot be a universal solution for all," Yu acknowledges. "But I think it's an extremely important alternative."

For now, the jacket is still a laboratory prototype, but Yu and Lei are optimistic. With the right industry partnerships, they say, the technology could realistically reach commercial scale within three to five years.

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This article originally appeared on CultureMap.com, written by Natalie Grigson.

Houston ranks among world’s top 30 emerging startup ecosystems

Startup Status

Long known as the Energy Capital of the World, Houston also ranks among the world’s top 30 emerging startup ecosystems, according to a new report.

The report from Startup Genome, a research and advisory organization, doesn’t assign a specific numeric ranking to Houston’s startup ecosystem. Rather, it puts Houston in the ranking range of 21 to 30 for emerging ecosystems. Startup Genome weighed factors such as early-stage funding, performance and talent to identify the top emerging ecosystems.

Houston also gained notice for being one of the world’s 20 emerging ecosystems with at least four unicorn startups in the past 10 years. Houston and nine other ecosystems each had four unicorns.

According to StartupBlink, a startup research platform, Houston’s startup ecosystem grew 24 percent in 2025, with over 1,300 startups and total startup funding exceeding $808 million. StartupBlink places Houston at No. 46 among the world’s top 100 startup ecosystems.

In a recent post on LinkedIn, David Horsup, executive in residence at the Rice Alliance Clean Energy Accelerator, wrote that Houston “has all the ingredients to be wildly successful if it stays true to its differentiated pillars that drive the economy — energy, medical, and aerospace.”

Mumbai topped Startup Genome’s list of emerging ecosystems, followed by Istanbul, Madrid, Salt Lake City-Provo and Barcelona. After Salt Lake City-Provo, the top U.S. ecosystems were Phoenix, Detroit, Minneapolis and Las Vegas.

Silicon Valley led Startup Genome’s ranking of the world’s top established ecosystems, followed by New York City, London, Tel Aviv and Boston. Austin landed at No. 18 in this category and Dallas at No. 27.

“For much of the past decade, this report has chronicled the welcome dispersion of opportunity beyond the traditional hubs,” Startup Genome writes. “That trend has not died — but it has been complicated. Capital and scale are consolidating once more, particularly in the United States, and the gap between leading and emerging ecosystems is widening.”