Houston energy tech incubator names 3 new companies to its program

ready to scale

Halliburton Labs has announced its inaugural cohort of energy tech companies. Photo courtesy of Halliburton

Halliburton's new in-house incubator program that was announced last year has named three new energy tech startups that are moving in.

Halliburton Labs, which originally launched last summer, was established to promote innovation amidst the energy transition. Member startups will have access to the Halliburton facilities, the company's experts, and its network, and will be located in the company's North Houston headquarters.

"We are excited to welcome a strong group of companies who have demonstrated promising innovation and are working to solve important clean energy challenges," says Dale Winger, managing director of Halliburton Labs, in a news release. "We look forward to collaborating with these companies and providing world-class industrial capabilities and expertise to help them achieve further scale."

Three energy tech startups will join Houston-based Nanotech Inc., the first Halliburton Labs startup in the program. Here are the three selected companies:

Enexor BioEnergy

Tennessee-based Enexor BioEnergy is working to address the world's organic and plastic waste problems. The company has developed a patented bioenergy system that can convert almost any organic, plastic, or biomass waste in any combination, into affordable, renewable power and thermal energy.

"We are seeing tremendous inbound customer demand for Enexor's renewable energy solution from across the world," says Lee Jestings, founder and CEO of Enexor BioEnergy, in the release. "We are honored to join Halliburton Labs. Their broad global network and deep manufacturing expertise will assist Enexor in meeting its significant worldwide demand while making a significantly positive environmental impact. This is a major step forward in our worldwide launch."

Momentum Technologies

Dallas-based Momentum Technologies has created an innovative way to recycle lithium battery by working with recyclers and manufacturers to recover critical materials from waste for reuse. The company was formed through a partnership with the U.S. Department of Energy, and Momentum's patented MSX technology has the ability to recover pure critical materials from spent lithium batteries, rare earth permanent magnets and other valuable waste products.

"Halliburton Labs is the ideal environment to scale our cutting-edge lithium battery recycling technology. We are excited to tap into Halliburton's Labs engineering and supply chain expertise and global business network to accelerate Momentum to the forefront," says Preston Bryant, CEO of Momentum Technologies, in the release.

OCO Inc.

Based in Oregon, OCO Inc.'s technology can transform carbon dioxide, water, and zero carbon electricity into a hydrogen-rich platform chemical that can be used to make a wide variety of zero-carbon chemicals, materials, and fuels. OCO's process is highly carbon negative and much less expensive than existing fossil-based processes and feedstocks.

"The valuable industrial expertise and network of Halliburton Labs will support our build, deployment, and demonstration of a full-size commercial grade system, the next step on our commercialization journey towards an industrial scale plant," says Todd Brix, founder and CEO of OCO Inc., in the release.

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Houston Public Library to open new state-of-the-art TECHLink center in 2025

Innovation Station

Work is underway for a new state-of-the-art TECHLink space from Houston Public Library (HPL). The free center for innovators and creatives is expected to open in fall 2025 at Vinson Neighborhood Library this year.

The new 3,480-square-foot space will replace the branch’s existing HPL Express area, which closed January 25 in preparation for construction. This will be HPL's fifth TECHLink center, and it will serve one of South Houston's busiest libraries, notes a release.

“I always look forward to seeing our customers’ creative wheels turning and formulating plans once they recognize all of the technologies and equipment that they can freely access,” Roland Lemonius, TECHLink Division Manager, said in a news release.

TECHLink Vinson will include HPL's largest TECHLink video studio and also a dedicated studio/set for podcasts and vloggers.

HPL TECHLinkVideo studio at TECHLink Dixon. Courtesy of HPL

It will also feature a music recording studio, an editing lab, and a Makerspace lab for 3D printing and laser engraving. Virtual and in-person training opportunities will be available in a training lab in the future, according to HPL.

For kids, the Tiny Techs Zone offers a dedicated area to educate youth on 3D printing and robotics.

“Being able to enhance their quality of life in this way along with our other library services is very rewarding,” Lemonius added in the release.

TECHLink Vinson will join four other locations:

  • TECHLink Alief
  • TECHLink Dixon
  • TECHLink Scenic Woods
  • TECHLink Walker
Find a virtual tour of the Dixon location here.


croployaltyshopping_cartlocal_librarydeleteTECHLINKTECHLink Vinson will join four other locations, including DIxon. Courtesy of HPL


Texas universities develop innovative open-source platform for cell analysis

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What do labs do when faced with large amounts of imaging data? Powerful cloud computing systems have long been the answer to that question, but a new riposte comes from SPACe.

That’s the name of a new open-source image analysis platform designed by researchers at Baylor College of Medicine, Texas A&M University and the University of Houston.

SPACe, or Swift Phenotypic Analysis of Cells, was created to be used on standard computers that even small labs can access, meaning cellular analysis using images produced through cell painting has a lower barrier to entry than ever before.

“The pharmaceutical industry has been accustomed to simplifying complex data into single metrics. This platform allows us to shift away from that approach and instead capture the full diversity of cellular responses, providing richer, more informative data that can reveal new avenues for drug development,” Michael Mancini, professor of molecular and cellular biology and director of the Gulf Coast Consortium Center for Advanced Microscopy and Image Informatics co-located at Baylor College of Medicine and TAMU Institute for Bioscience and Technology.

SPACe is not only accessible because of its less substantial computational needs. Because the platform is open-source, it’s available to anyone who needs it. And it can be used by academic and pharmaceutical researchers alike.

“The platform allows for the identification of non-toxic effects of drugs, such as alterations in cell shape or effects on specific organelles, which are often overlooked by traditional assays that focus largely on cell viability,” says Fabio Stossi, currently a senior scientist with St. Jude Children’s Research Hospital, the lead author who was at Baylor during the development of SPACe.

The platform is a better means than ever of analyzing thousands of individual cells through automated imaging platforms, thereby better capturing the variability of biological processes. Through that, SPACe allows scientists an enhanced understanding of the interactions between drugs and cells, and does it on standard computers, translating to scientists performing large-scale drug screenings with greater ease.

"This tool could be a game-changer in how we understand cellular biology and discover new drugs. By capturing the full complexity of cellular responses, we are opening new doors for drug discovery that go beyond toxicity,” says Stossi.

And the fact that it’s open-source allows scientists to access SPACe for free right now. Researchers interested in using the platform can access it through Github at github.com/dlabate/SPACe. This early version could already make waves in research, but the team also plans to continually improve their product with the help of collaborations with other institutions.

The Ion names new coworking partner for Houston innovation hub

Where to Work

Rice University subsidiary Rice Real Estate Co. has tapped coworking company Industrious as the new operator of the Ion’s 86,000-square-foot coworking space in Midtown. Industrious replaces WeWork-owned Common Desk in that role.

The Ion, owned by Rice Real Estate and located at 4201 Main St., is a 266,000-square-foot office building and innovation hub in the 16-acre Ion District.

Features of the coworking space include private suites and offices, dedicated desks, phone booths and conference rooms. In 2022, Common Desk said it was expanding the space by 28,000 square feet, bringing it to the current size.

“(Industrious’) unparalleled expertise in delivering quality, hospitality-driven workspaces complements our vision of creating a world-class ecosystem where entrepreneurs, corporations, and academia converge to drive innovation forward,” Ken Jett, president of Rice Real Estate, said in a statement.

Natalie Levine, senior manager of real estate at Industrious, says her company will work with Rice Real Estate “to continue to position the Ion as an invaluable contributor to the growth of Houston’s innovation community.”

Dallas-based commercial real estate services company CBRE said Jan. 14 that it had agreed to acquire Industrious in a deal valued at $400 million.

The Ion is Industrious’ second location in Houston. The company’s other local coworking space is at 1301 McKinney St.

Office tenants at the Ion include Occidental Petroleum, Fathom Fund, Activate, Carbon Clean, Microsoft and Chevron Technology Ventures.

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