Space City News: Houston Spaceport receives grant, unicorn hires architecture firm

rocketing roundup

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's Ion District to expand with new research and tech space, The Arc

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Houston's Ion District is set to expand with the addition of a nearly 200,000-square-foot research and technology facility, The Arc at the Ion District.

Rice Real Estate Company and Lincoln Property Company are expected to break ground on the state-of-the-art facility in Q2 2026 with a completion target set for Q1 2028, according to a news release.

Rice University, the new facility's lead tenant, will occupy almost 30,000 square feet of office and lab space in The Arc, which will share a plaza with the Ion and is intended to "extend the district’s success as a hub for innovative ideas and collaboration." Rice research at The Arc will focus on energy, artificial intelligence, data science, robotics and computational engineering, according to the release.

“The Arc will offer Rice the opportunity to deepen its commitment to fostering world-changing innovation by bringing our leading minds and breakthrough discoveries into direct engagement with Houston’s thriving entrepreneurial ecosystem,” Rice President Reginald DesRoches said in the release. “Working side by side with industry experts and actual end users at the Ion District uniquely positions our faculty and students to form partnerships and collaborations that might not be possible elsewhere.”

Developers of the project are targeting LEED Gold certification by incorporating smart building automation and energy-saving features into The Arc's design. Tenants will have the opportunity to lease flexible floor plans ranging from 28,000 to 31,000 square feet with 15-foot-high ceilings. The property will also feature a gym, an amenity lounge, conference and meeting spaces, outdoor plazas, underground parking and on-site retail and dining.

Preleasing has begun for organizations interested in joining Rice in the building.

“The Arc at the Ion District will be more than a building—it will be a catalyst for the partnerships, innovations and discoveries that will define Houston’s future in science and technology,” Ken Jett, president of Rice Real Estate Company, added in the release. “By expanding our urban innovation ecosystem, The Arc will attract leading organizations and talent to Houston, further strengthening our city’s position as a hub for scientific and entrepreneurial progress.”

Intel Corp. and Rice University sign research access agreement

innovation access

Rice University’s Office of Technology Transfer has signed a subscription agreement with California-based Intel Corp., giving the global company access to Rice’s research portfolio and the opportunity to license select patented innovations.

“By partnering with Intel, we are creating opportunities for our research to make a tangible impact in the technology sector,” Patricia Stepp, assistant vice president for technology transfer, said in a news release.

Intel will pay Rice an annual subscription fee to secure the option to evaluate specified Rice-patented technologies, according to the agreement. If Intel chooses to exercise its option rights, it can obtain a license for each selected technology at a fee.

Rice has been a hub for innovation and technology with initiatives like the Rice Biotech Launch Pad, an accelerator focused on expediting the translation of the university’s health and medical technology; RBL LLC, a biotech venture studio in the Texas Medical Center’s Helix Park dedicated to commercializing lifesaving medical technologies from the Launch Pad; and Rice Nexus, an AI-focused "innovation factory" at the Ion.

The university has also inked partnerships with other tech giants in recent months. Rice's OpenStax, a provider of affordable instructional technologies and one of the world’s largest publishers of open educational resources, partnered with Microsoft this summer. Google Public Sector has also teamed up with Rice to launch the Rice AI Venture Accelerator, or RAVA.

“This agreement exemplifies Rice University’s dedication to fostering innovation and accelerating the commercialization of groundbreaking research,” Stepp added in the news release.

Houston team develops low-cost device to treat infants with life-threatening birth defect

infant innovation

A team of engineers and pediatric surgeons led by Rice University’s Rice360 Institute for Global Health Technologies has developed a cost-effective treatment for infants born with gastroschisis, a congenital condition in which intestines and other organs are developed outside of the body.

The condition can be life-threatening in economically disadvantaged regions without access to equipment.

The Rice-developed device, known as SimpleSilo, is “simple, low-cost and locally manufacturable,” according to the university. It consists of a saline bag, oxygen tubing and a commercially available heat sealer, while mimicking the function of commercial silo bags, which are used in high-income countries to protect exposed organs and gently return them into the abdominal cavity gradually.

Generally, a single-use bag can cost between $200 and $300. The alternatives that exist lack structure and require surgical sewing. This is where the SimpleSilo comes in.

“We focused on keeping the design as simple and functional as possible, while still being affordable,” Vanshika Jhonsa said in a news release. “Our hope is that health care providers around the world can adapt the SimpleSilo to their local supplies and specific needs.”

The study was published in the Journal of Pediatric Surgery, and Jhonsa, its first author, also won the 2023 American Pediatric Surgical Association Innovation Award for the project. She is a recent Rice alumna and is currently a medical student at UTHealth Houston.

Bindi Naik-Mathuria, a pediatric surgeon at UTMB Health, served as the corresponding author of the study. Rice undergraduates Shreya Jindal and Shriya Shah, along with Mary Seifu Tirfie, a current Rice360 Global Health Fellow, also worked on the project.

In laboratory tests, the device demonstrated a fluid leakage rate of just 0.02 milliliters per hour, which is comparable to commercial silo bags, and it withstood repeated disinfection while maintaining its structure. In a simulated in vitro test using cow intestines and a mock abdominal wall, SimpleSilo achieved a 50 percent reduction of the intestines into the simulated cavity over three days, also matching the performance of commercial silo bags. The team plans to conduct a formal clinical trial in East Africa.

“Gastroschisis has one of the biggest survival gaps from high-resource settings to low-resource settings, but it doesn’t have to be this way,” Meaghan Bond, lecturer and senior design engineer at Rice360, added in the news release. “We believe the SimpleSilo can help close the survival gap by making treatment accessible and affordable, even in resource-limited settings.”
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