Bill Gates was announced as a keynote speaker at CERAWeek — and more things to know this week. Photo via breakthroughenergy.org

Editor's note: Dive headfirst into the new week with three quick things to catch up on in Houston's energy transition: a roundup of events not to miss, a podcast to stream, and more.

Bill Gates heads to Houston for CERAWeek by S&P Global

Legendary Microsoft founder Bill Gates, who founded Breakthrough Energy and TerraPower, is headed to town for the 2024 CERAWeek. Gates will be featured in a luncheon fireside chat with S&P Global's Daniel Yergin on Thursday, March 21, at 1 pm.

CERAWeek by S&P Global 2024, with its theme of "Multidimensional Energy Transition: Markets, climate, technology and geopolitics," will zero in on the world's journey to zero-carbon, specifically exploring "strategies for a multidimensional, multispeed and multifuel energy transition," according to a news release. The programming will reflect on the reality of the energy transition, including its progress in different regions and across industries, technologies, and politics. Learn more.

Podcast: Scott Gale of Halliburton Labs calls for collaboration

Scott Gale will be the first to admit that hosting a week of curated events targeted to a group of individuals within the tech and energy space isn't a novel idea — Climate Week NYC has been taking over Manhattan for over a decade. But Gale believes Houston deserves to have its own time to shine.

Earlier this month, Halliburton Labs, Rice Alliance, and Greentown Houston announced the inaugural Houston Energy and Climate Startup Week 2024 to take place in September, but Gale, executive director of Halliburton Labs, says he hopes this is just the beginning of Houston organizations coming together to collaborate on the initiative.

"I think we have a really awesome initial coalition. Whether your the fifth company or organization to raise its hand to do something that week or the 50th — it really doesn't matter," Gale says on the Houston Innovators Podcast. "It really is an open invitation — and I want to make that super clear."

Events not to miss

Put these Houston-area energy-related events on your calendar.

  • CERAWeek 2024 is Monday, March 18, to Friday, March 22, in the George R. Brown Convention Center. Register.
  • DeCarb Connect supports senior leaders in decarbonization to accelerate strategy and decision making to reduce carbon emissions and reach net zero targets. The event is March 26 to 28 at Westin Houston Memorial City. Register.
  • On March 27, Greentown Houston is hosting "Accelerating Net-Zero Solutions: CCUS Innovation and Startup Showcase." Watch the Go Make 2023 cohort pitch their innovations in carbon utilization, storage, and traceability; hear about their work with Shell throughout the startup-corporate-partnerships accelerator; and learn from CCUS industry experts. Register.
  • On April 17, the University of Houston presents "Gulf Coast Hydrogen Ecosystem: Opportunities & Solutions" featuring experts from academia, industry, government, and more. The symposium begins at 8 am with a networking reception takes place beginning at 5 pm at the University of Houston Student Center South - Theater Room. Register.

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Rice University spinout lands $500K NSF grant to boost chip sustainability

cooler computing

HEXAspec, a spinout from Rice University's Liu Idea Lab for Innovation and Entrepreneurship, was recently awarded a $500,000 National Science Foundation Partnership for Innovation grant.

The team says it will use the funding to continue enhancing semiconductor chips’ thermal conductivity to boost computing power. According to a release from Rice, HEXAspec has developed breakthrough inorganic fillers that allow graphic processing units (GPUs) to use less water and electricity and generate less heat.

The technology has major implications for the future of computing with AI sustainably.

“With the huge scale of investment in new computing infrastructure, the problem of managing the heat produced by these GPUs and semiconductors has grown exponentially. We’re excited to use this award to further our material to meet the needs of existing and emerging industry partners and unlock a new era of computing,” HEXAspec co-founder Tianshu Zhai said in the release.

HEXAspec was founded by Zhai and Chen-Yang Lin, who both participated in the Rice Innovation Fellows program. A third co-founder, Jing Zhang, also worked as a postdoctoral researcher and a research scientist at Rice, according to HEXAspec's website.

The HEXASpec team won the Liu Idea Lab for Innovation and Entrepreneurship's H. Albert Napier Rice Launch Challenge in 2024. More recently, it also won this year's Energy Venture Day and Pitch Competition during CERAWeek in the TEX-E student track, taking home $25,000.

"The grant from the NSF is a game-changer, accelerating the path to market for this transformative technology," Kyle Judah, executive director of Lilie, added in the release.

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This article originally ran on InnovationMap.

Rice research team's study keeps CO2-to-fuel devices running 50 times longer

new findings

In a new study published in the journal Science, a team of Rice University researchers shared findings on how acid bubbles can improve the stability of electrochemical devices that convert carbon dioxide into useful fuels and chemicals.

The team led by Rice associate professor Hoatian Wang addressed an issue in the performance and stability of CO2 reduction systems. The gas flow channels in the systems often clog due to salt buildup, reducing efficiency and causing the devices to fail prematurely after about 80 hours of operation.

“Salt precipitation blocks CO2 transport and floods the gas diffusion electrode, which leads to performance failure,” Wang said in a news release. “This typically happens within a few hundred hours, which is far from commercial viability.”

By using an acid-humidified CO2 technique, the team was able to extend the operational life of a CO2 reduction system more than 50-fold, demonstrating more than 4,500 hours of stable operation in a scaled-up reactor.

The Rice team made a simple swap with a significant impact. Instead of using water to humidify the CO2 gas input into the reactor, the team bubbled the gas through an acid solution such as hydrochloric, formic or acetic acid. This process made more soluble salt formations that did not crystallize or block the channels.

The process has major implications for an emerging green technology known as electrochemical CO2 reduction, or CO2RR, that transforms climate-warming CO2 into products like carbon monoxide, ethylene, or alcohols. The products can be further refined into fuels or feedstocks.

“Using the traditional method of water-humidified CO2 could lead to salt formation in the cathode gas flow channels,” Shaoyun Hao, postdoctoral research associate in chemical and biomolecular engineering at Rice and co-first author, explained in the news release. “We hypothesized — and confirmed — that acid vapor could dissolve the salt and convert the low solubility KHCO3 into salt with higher solubility, thus shifting the solubility balance just enough to avoid clogging without affecting catalyst performance.”

The Rice team believes the work can lead to more scalable CO2 electrolyzers, which is vital if the technology is to be deployed at industrial scales as part of carbon capture and utilization strategies. Since the approach itself is relatively simple, it could lead to a more cost-effective and efficient solution. It also worked well with multiple catalyst types, including zinc oxide, copper oxide and bismuth oxide, which are allo used to target different CO2RR products.

“Our method addresses a long-standing obstacle with a low-cost, easily implementable solution,” Ahmad Elgazzar, co-first author and graduate student in chemical and biomolecular engineering at Rice, added in the release. “It’s a step toward making carbon utilization technologies more commercially viable and more sustainable.”

A team led by Wang and in collaboration with researchers from the University of Houston also shared findings on salt precipitation buildup and CO2RR in a recent edition of the journal Nature Energy. Read more here.