Halliburton Labs has added three energy tech startups to its program. Photo via Getty Images

Halliburton Labs has announced its latest cohort — and revealed details about its next pitch day.

The program, housed at Halliburton's facilities in Houston, added FuelX, LiNa Energy, and Solaires Entreprises to the clean energy accelerator. The companies will receive support from mentors from within Halliburton's workforce and network, as well as go through the accelerator's programming.

“We’re excited to support FuelX, LiNa Energy, and Solaires with the tools they need to achieve their goals,” says Halliburton Labs Managing Director Dale Winger in a news release. “Each participant company receives customized support to enable efficient use of their time and capital by engaging Halliburton’s scaling experience and capabilities.”

The next Halliburton Labs will not take place in Houston. The program is going on the road to host its next Halliburton Labs Finalists Pitch Day on Thursday, September 21, in Denver. The event will be a part of the inaugural Energy Tech Day at Denver Startup Week and will include pitches from innovative, early-stage energy tech companies.

FuelX

FuelX, which has a production plant in the Houston area, manufactures hydrogen storage materials and fuel cell power systems with alane solid state hydrogen fuel.

“Participation in the Halliburton Labs program accelerates our ability to scale to meet existing military and commercial project milestones,” says Greg Jarvie, co-founder and CEO of FuelX.

LiNa Energy

Headquartered in Lancaster, England, LiNa Energy develops and provides low-cost, solid-state sodium batteries.

"LiNa is delighted to be selected for Halliburton Labs – the support and investment will accelerate LiNa's growth on a scale found only in the energy industry,” says Chief Commercial Officer Will Tope. “Halliburton Labs is a cornerstone of our strategy, as we scale up manufacturing to deliver bigger energy storage systems to our partners around the world."

Solaires Entreprises

Solaires Entreprises, based in Victoria, British Columbia, is developing lightweight, flexible, efficient, and transparent solar cells.

“Our company is purpose-driven toward what our technology can achieve: a more affordable and reliable alternative within solar energy and photovoltaics and where renewables become a bigger portion of the world power mix,” says Solaires Co-founder and Chief Science Officer Sahar Sam.

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European spacecraft developer expands to Houston with U.S. business, new lab

houston hq

European aerospace manufacturer The Exploration Company has established its first U.S. entity and named Space City as its headquarters.

The company announced earlier this month that it has launched TEC Federal to support U.S. government customers and agencies, and to scale The Exploration Company's engineering operations in the country.

Mark Kirasich serves as president of TEC Federal. Kirasich most recently served as the senior director of human spaceflight at Blue Origin after a nearly 40-year career at NASA.

The Exploration Company is developing the reusable Nyx space vehicle. Nyx is designed to take off from any heavy launcher in the world. It will then dock at space stations, retrieve up to 3,000 kilograms of cargo, splash down and return the cargo to Earth. The company aims to make Nyx fully reusable for up to 10 missions, making it a more affordable and sustainable option for aerospace missions.

The Exploration Company completed a successful drop test of the spacecraft in May in the Mojave Desert. The company says Nyx is slated to perform its first flight demonstration in 2028.

In addition to launching the Houston business, The Exploration Company also opened its new Rapid Innovation Lab near Houston's NASA Johnson Space Center on Space Park Drive.

The Exploration Company opened its Rapid Innovation Lab earlier this month. Photo via LinkedIn

The Rapid Innovation Lab features a full-scale mockup of the future Nyx crew capsule as well as ongoing development and testing of the Nyx cargo capsule, according to the company.

The Exploration Company says the new lab will allow its engineers, designers, and operators to prototype and test crew interfaces. It will also support partnerships with NASA personnel and astronauts.

“Houston gives us direct access to the people and expertise that have built and operated human spaceflight systems for decades. We’re excited to invest and expand around that— engineers, operators, and astronauts working together and moving quickly towards building a crew capsule.” Hélène Huby, founder and CEO of The Exploration Company, said in a blog post.

According to The Houston Chronicle, The Exploration Company has about 30 employees in the Houston area.

The company was founded in 2021 by Huby, a French rocket scientist, and has raised more than $350 million in venture capital. It operates out of Germany, France, Luxembourg, Spain and Italy, with offices in the U.S. and the United Arab Emirates. It is also developing a reusable, high-thrust rocket engine known as Storm.

UH lands $4M NIH grant to study early signs of autoimmune disease

NIH funding

The University of Houston recently received a $4 million National Institutes of Health grant to support a 10-year longitudinal study to identify the earliest biological markers of autoimmune disease.

Led by Chandra Mohan, the Hugh Roy and Lillie Cranz Cullen Endowed Professor of Biomedical Engineering, the study aims to examine what causes Systemic Autoimmune Rheumatic Diseases (SARDs) and to identify targets for future treatments. The study will be carried out in collaboration with Dr. Karen Costenbader at Harvard Medical School, Boston.

SARDs include conditions like rheumatoid arthritis, systemic lupus erythematosus, Sjögren’s syndrome and systemic sclerosis—all are considered chronic diseases currently without a cure. Autoimmune diseases affect over 30 million people globally, according to UH.

SARDs occur when the body’s immune system attacks healthy, non-threatening tissues and organs. According to UH, in these diseases, the body often attacks nuclear antigens, creating anti-nuclear autoantibodies, which can be early detection signs for SARDs in more than 50 percent of patients, Mohan says.

Researchers will study blood samples and environmental exposure over the 10 years to better understand anti-nuclear autoantibodies.

“Collectively, these studies will help identify the genetic, environmental and cellular factors that are operative at the two steps of SARD development, namely the emergence of anti-nuclear autoantibodies and disease onset,” Mohan said in a news release. “ More importantly, these studies will highlight functional molecular pathways and mechanisms that may be operative at each step."

Mohan predicts that looking at SARDs’ shared characteristics, rather than each disease individually, could help identify more treatment methods.

“Individual SARDs have been examined in silos without an attempt to discern shared underlying features at the molecular level,” he added in the release. “Current understanding of the initial (and likely shared) origins of SARDs is only rudimentary but urgently needed to develop means for prevention and treatment.”

Earlier this year, UH also received an $11 million NIH grant to conduct a first-of-its-kind study of early language development in children ages 18 to 24 months. Read more here.