Catch up on two big pieces of news landing at the Houston Spaceport. Image via fly2houston.com

The Space City is starting 2022 off strong with news launching out of the Houston Spaceport — a 400-acre space in Southeast Houston.

The two big headlines include a unicorn company releasing the latest details of its earthbound project and fresh funds from the state to support the space ecosystem in Texas.

Governor Abbott doles out $10M in spaceport grants

Texas has launched fresh funding into two spaceport projects. Image via fly2houston.com

Last week, Gov. Greg Abbott announced $10 million in funding to two Texas spaceports as a part of the state's Spaceport Trust Fund. The Houston Spaceport Development Corp. received $5 million and the Cameron County Spaceport Development Corp. received $5 million.

The fund is administered by the Governor's Office of Economic Development and Tourism and was created to support the development of spaceport infrastructure, create quality jobs, and attract continuing investments that will strengthen the economic future of the state, according to a news release.

"For decades, Texas has been a trailblazer in space technology and we are proud to help cultivate more innovation and development in this growing industry in Cameron and Harris County," says Abbott in the release. "This investment in the Cameron County and Houston Spaceport Development Corporations will create even more economic opportunities for Texans across the state and continue our legacy as a leader in space technology."

Axiom Space hires Dallas-based architecture and engineering firm

Axiom Space has made progress on developing its 14-acre headquarters. Image via axiomspace.com

Houston-based unicorn Axiom Space has announced that it awarded Dallas-based Jacobs the architecture and engineering phase one design contract. The firm will be working on the 100,000-square-foot facility planned for the 400-acre Houston Spaceport at Ellington Airport.

Axiom Space's plans are ro build the first commercial space station that will provide a central hub for research, to support microgravity experiments, manufacturing, and commerce in low Earth orbit missions, according to a news release.

"This is an exciting and historic moment for Axiom and the greater Houston area," says Axiom CTO Matt Ondler in the release. "For the first time, spacecraft will be built and outfitted right here in Houston, Texas. This facility will provide us with the infrastructure necessary to scale up operations and bring more aerospace jobs to the area. With this new facility, we are not only building next generation spacecraft, but also solidifying Houston as the U.S. commercial industry's gateway to space."

Axiom Space, which raised $130M in venture capital last year, is building out its 14-acre headquarters to accommodate the creation of more than 1,000 high-paying jobs, from engineers to scientists, mathematicians, and machinists.

"Houston is a city built on innovation and is becoming a next-generation tech hub in the United States," says Ron Williams, senior vice president at Jacobs. "Privately funded infrastructure will drive U.S. leadership in space. Jacobs is committed to providing integrated solutions to accelerate the future of commercial space operations."

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Houston researchers create AI model to tap into how brain activity relates to illness

brainiac

Houston researchers are part of a team that has created an AI model intended to understand how brain activity relates to behavior and illness.

Scientists from Baylor College of Medicine worked with peers from Yale University, University of Southern California and Idaho State University to make Brain Language Model, or BrainLM. Their research was published as a conference paper at ICLR 2024, a meeting of some of deep learning’s greatest minds.

“For a long time we’ve known that brain activity is related to a person’s behavior and to a lot of illnesses like seizures or Parkinson’s,” Dr. Chadi Abdallah, associate professor in the Menninger Department of Psychiatry and Behavioral Sciences at Baylor and co-corresponding author of the paper, says in a press release. “Functional brain imaging or functional MRIs allow us to look at brain activity throughout the brain, but we previously couldn’t fully capture the dynamic of these activities in time and space using traditional data analytical tools.

"More recently, people started using machine learning to capture the brain complexity and how it relates it to specific illnesses, but that turned out to require enrolling and fully examining thousands of patients with a particular behavior or illness, a very expensive process,” Abdallah continues.

Using 80,000 brain scans, the team was able to train their model to figure out how brain activities related to one another. Over time, this created the BrainLM brain activity foundational model. BrainLM is now well-trained enough to use to fine-tune a specific task and to ask questions in other studies.

Abdallah said that using BrainLM will cut costs significantly for scientists developing treatments for brain disorders. In clinical trials, it can cost “hundreds of millions of dollars,” he said, to enroll numerous patients and treat them over a significant time period. By using BrainLM, researchers can enroll half the subjects because the AI can select the individuals most likely to benefit.

The team found that BrainLM performed successfully in many different samples. That included predicting depression, anxiety and PTSD severity better than other machine learning tools that do not use generative AI.

“We found that BrainLM is performing very well. It is predicting brain activity in a new sample that was hidden from it during the training as well as doing well with data from new scanners and new population,” Abdallah says. “These impressive results were achieved with scans from 40,000 subjects. We are now working on considerably increasing the training dataset. The stronger the model we can build, the more we can do to assist with patient care, such as developing new treatment for mental illnesses or guiding neurosurgery for seizures or DBS.”

For those suffering from neurological and mental health disorders, BrainLM could be a key to unlocking treatments that will make a life-changing difference.

Houston-based cleantech unicorn named among annual top disruptors

on the rise

Houston-based biotech startup Solugen is making waves among innovative companies.

Solugen appears at No. 36 on CNBC’s annual Disruptor 50 list, which highlights private companies that are “upending the classic definition of disruption.” Privately owned startups founded after January 1, 2009, were eligible for the Disruptor 50 list.

Founded in 2016, Solugen replaces petroleum-based products with plant-derived substitutes through its Bioforge manufacturing platform. For example, it uses engineered enzymes and metal catalysts to convert feedstocks like sugar into chemicals that have traditionally been made from fossil fuels, such as petroleum and natural gas.

Solugen has raised $643 million in funding and now boasts a valuation of $2.2 billion.

“Sparked by a chance medical school poker game conversation in 2016, Solugen evolved from prototype to physical asset in five years, and production hit commercial scale shortly thereafter,” says CNBC.

Solugen co-founders Gaurab Chakrabarti and Sean Hunt received the Entrepreneur of The Year 2023 National Award, presented by professional services giant EY.

“Solugen is a textbook startup launched by two partners with $10,000 in seed money that is revolutionizing the chemical refining industry. The innovation-driven company is tackling impactful, life-changing issues important to the planet,” Entrepreneur of The Year judges wrote.

In April 2024, Solugen broke ground on a Bioforge biomanufacturing plant in Marshall, Minnesota. The 500,000-square-foot, 34-acre facility arose through a Solugen partnership with ADM. Chicago-based ADM produces agricultural products, commodities, and ingredients. The plant is expected to open in the fall of 2025.

“Solugen’s … technology is a transformative force in sustainable chemical manufacturing,” says Hunt. “The new facility will significantly increase our existing capabilities, enabling us to expand the market share of low-carbon chemistries.”

Houston cleantech company tests ​all-electric CO2-to-fuel production technology

RESULTS ARE IN

Houston-based clean energy company Syzygy Plasmonics has successfully tested all-electric CO2-to-fuel production technology at RTI International’s facility at North Carolina’s Research Triangle Park.

Syzygy says the technology can significantly decarbonize transportation by converting two potent greenhouse gases, carbon dioxide and methane, into low-carbon jet fuel, diesel, and gasoline.

Equinor Ventures and Sumitomo Corp. of Americas sponsored the pilot project.

“This project showcases our ability to fight climate change by converting harmful greenhouse gases into fuel,” Trevor Best, CEO of Syzygy, says in a news release.

“At scale,” he adds, “we’re talking about significantly reducing and potentially eliminating the carbon intensity of shipping, trucking, and aviation. This is a major step toward quickly and cost effectively cutting emissions from the heavy-duty transport sector.”

At commercial scale, a typical Syzygy plant will consume nearly 200,000 tons of CO2 per year, the equivalent of taking 45,000 cars off the road.

“The results of this demonstration are encouraging and represent an important milestone in our collaboration with Syzygy,” says Sameer Parvathikar, director of renewable energy and energy storage at RTI.

In addition to the CO2-to-fuel demonstration, Syzygy's Ammonia e-Cracking™ technology has completed over 2,000 hours of performance and optimization testing at its plant in Houston. Syzygy is finalizing a site and partners for a commercial CO2-to-fuel plant.

Syzygy is working to decarbonize the chemical industry, responsible for almost 20 percent of industrial CO2 emissions, by using light instead of combustion to drive chemical reactions.

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This article originally ran on EnergyCapital.