hou knew?

Calling all energy startups, Amazon enters the DAC chat, and more things to know this week

Events not to miss, nomination deadline for awards program for innovative energy businesses, and more things to know this week. Photo via Getty Images

Editor's note: It's a new week — start it strong with three quick things to know in Houston's energy transition ecosystem. Submit an energy transition company to an awards program, read how Amazon entered the DAC conversation, and learn about events not to miss this week.

Houston Innovation Awards nominations coming to a close

Photo via Getty Images

If you haven't heard, EnergyCapital's sister site, InnovationMap, is accepting nominations for the 2023 Houston Innovation Awards. The deadline to submit is tomorrow, September 19, and there are several categories that might be of interest to the Houston energy transition ecosystem, such as:

  • Hardtech Business, honoring an innovative company developing and commercializing a physical technology
  • Digital Solutions Business, honoring an innovative company developing and programming a digital solution to a problem in an industry
  • Sustainability Business, honoring an innovative company providing a solution within renewables, climatetech, clean energy, alternative materials, circular economy, and beyond
  • Corporate of the Year, honoring a corporation that supports startups and/or the Houston innovation community
  • People's Choice: Startup of the Year, selected via an interactive voting portal during the event
Now, these are only a few categories this year. To submit a nomination and read more about the awards, click here.

Events to have on your radar

Photo courtesy of The Cannon

  • September 21 — The Rice Alliance Energy Tech Venture Forum is an opportunity to learn about the latest emerging technologies, meet investors to seek funding, see promising companies, and more. (Note: I'm moderating a panel about venture investment at 2 pm)
  • September 21 — UH Energy Symposium, a panel series, is hosting its next installment, entitled Plastics, Chemicals, Circularity: What's Next?
  • September 28 — Chevron Technology Ventures seeks to identify novel technologies and innovation systems that stand to transform and improve facility-focused operational efficiencies, via the Chevron Technology Ventures Pitch Competition. Six Houston companies will compete to win a tailored field trial opportunity with CTV experts, plus a six-month, complimentary, flexible-workspace membership at The Cannon.

Amazon makes investment in direct air capture by way of Houston-based Oxy

Photo via 1pointfive.com

Houston-based cleantech company 1PointFive is among the recipients of e-commerce giant Amazon’s first investments in carbon-fighting direct air capture (DAC).

Amazon has agreed to buy 250,000 metric tons of carbon removal credits from Stratos, 1PointFive’s first DAC plant, over a 10-year span. That commitment is equivalent to the amount of carbon stored naturally across more than 290,000 acres of U.S. forecasts, says Amazon.

As Amazon explains, DAC technology filters CO2 from the atmosphere and stores it in underground geological formations. Aside from being stored, removed carbon can be used to make building materials like bricks, cement, and concrete. Read more.

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A View From HETI

Researchers created a light-driven catalyst for hydrogen production, offering an emission-free alternative to traditional methods. Photo by Jeff Fitlow/Rice University

Researchers at Rice University have developed a catalyst that could render steam methane reforming, or SMR, entirely emission-free by using light rather than heat to drive the reaction.

The researchers believe the work could prove to be a breakthrough for extending catalyst lifetimes. This will improve efficiencies and reduce costs for a number of industrial processes that are affected by a form of carbon buildup that can deactivate catalysts called coking.

The new copper-rhodium photocatalyst uses an antenna-reactor design. When it is exposed to a specific wavelength of light it breaks down methane and water vapor without external heating into hydrogen and carbon monoxide. The importance of this is it is a chemical industry feedstock that is not a greenhouse gas. Rice’s work also shows that the antenna-reactor technology can overcome catalyst deactivation due to oxidation and coking by employing hot carriers to remove oxygen species and carbon deposits, which effectively regenerates the catalyst with light.

The new SMR reaction pathway build off a 2011 discovery from Peter Nordlander, Rice’s Wiess Chair and Professor of Physics and Astronomy and professor of electrical and computer engineering and materials science and nanoengineering, and Naomi Halas. They are the authors on the study about the research that was published in Nature Catalysis. The study showed that the collective oscillations of electrons that occur when metal nanoparticles are exposed to light can emit “hot carriers” or high-energy electrons and holes that can be used to drive chemical reactions.

“This is one of our most impactful findings so far, because it offers an improved alternative to what is arguably the most important chemical reaction for modern society,” Norlander says in a news release.

The research was supported by Robert A. Welch Foundation (C-1220, C-1222) and the Air Force Office of Scientific Research (FA9550-15-1-0022) with the Shared Equipment Authority at Rice providing data analysis support.

“This research showcases the potential for innovative photochemistry to reshape critical industrial processes, moving us closer to an environmentally sustainable energy future,” Halas adds.

Hydrogen has been studied as it could assist with the transition to a sustainable energy ecosystem, but the chemical process responsible for more than half of the current global hydrogen production is a substantial source of greenhouse gas emissions.Hydrogen is produced in large facilities that require the gas to be transported to its point of use. Light-driven SMR allows for on-demand hydrogen generation,which researchers believe is a key benefit for use in mobility-related applications like hydrogen fueling stations or and possibly vehicles.

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