Rising Houston health care tower secures $50M in donations

fresh funding

The tower, set for completion in 2026, will be the new home of the School of Medicine and the School of Health Professions. Rendering courtesy of SLAM Architecture

Houston’s Baylor College of Medicine has received more than $50 million in donations for construction of the Lillie and Roy Cullen Tower.

The tower, originally announced last year and set for completion in 2026, will be the new home of the School of Medicine and the School of Health Professions.

The new contributions are:

  • $25 million from The Brown Foundation.
  • $16 million from The DeBakey Medical Foundation, adding to $12 million that already was pledged.
  • $10 million from the Sarofim Foundation, matching a previous $10 million commitment from the late Fayez Sarofim.

“Thanks to tremendous support from the community, we have raised almost $150 million in philanthropy for the new state-of-the-art home for the School of Medicine and School of Health Professions. Cullen Tower isn’t just an investment in infrastructure, but an investment in the health and well-being of future generations,” Dr. Paul Klotman, president, CEO, and executive dean at the Baylor College of Medicine, says in a news release.

The 503,000-square-foot Lillie and Roy Cullen Tower is the first phase of Baylor’s planned Health Sciences Park, an 800,000-square-foot project that will combine medical education and research at a site next to Baylor Medicine and Baylor St. Luke’s Medical Center.

In recognition of The DeBakey Medical Foundation’s increased commitment to Cullen Tower and additional funding for the Michael E. DeBakey Department of Surgery, the Baylor College of Medicine will name the park the Michael E. DeBakey Health Sciences Park. It will encompass the new Cullen Tower, another research tower to be built in the future, a building that links the two towers, and the existing Jamail Specialty Care Center.

“The comprehensive scope of the park — combining spaces for education, research, and clinical care — is a fitting tribute to Dr. DeBakey’s contributions to Baylor and the field of health care. The Cullen Tower embodies his legacy of excellence, which will inspire further generations of Baylor students to strive for greatness while advancing medical knowledge and providing compassionate care to patients,” says Dr. H. David Short III, president of the DeBakey foundation.

Baylor College of Medicine's Lillie and Roy Cullen Tower is set to open in 2026. Rendering courtesy of SLAM Architecture

Houston health care institution secures $100M for expansion, shares renderings

fresh funding

Baylor College of Medicine has collected $100 million toward its $150 million fundraising goal for the college’s planned Lillie and Roy Cullen Tower.

The $100 million in gifts include:

  • A total of $30 million from The Cullen Foundation, The Cullen Trust for Health Care, and The Cullen Trust for Higher Education.
  • $12 million from the DeBakey Medical Foundation
  • $10 million from the Huffington Foundation
  • More than $45 million from members of Baylor’s Board of Trustees and other community donors, including the M.D. Anderson Foundation, the Albert and Margaret Alkek Foundation, and The Elkins Foundation.

“The Cullen Trust for Health Care is very honored to support this building along with The Cullen Foundation and The Cullen Trust for Higher Education,” Cullen Geiselman Muse, chair of The Cullen Trust for Health Care, says in a news release. “We cannot wait to see what new beginnings will come from inside the Lillie and Roy Cullen Tower.”

Baylor College of Medicine's Lillie and Roy Cullen TowerThe Baylor campus is next to Texas Medical Center’s Helix Park, a 37-acre project. Rendering courtesy of BCM

The Lillie and Roy Cullen Tower is set to open in 2026. The 503,000-square-foot tower is the first phase of Baylor’s planned Health Sciences Park, an 800,000-square-foot project that will feature medical education and research adjacent to patient care at Baylor Medicine and Baylor St. Luke’s Medical Center on the McNair Campus.

The Baylor campus is next to Texas Medical Center’s Helix Park, a 37-acre project that will support healthcare, life sciences, and business ventures. Baylor is the anchor tenant in the first building being constructed at Helix Park.

“To really change the future of health, we need a space that facilitates the future,” says Dr. Paul Klotman, president, CEO, and executive dean of Baylor. “We need to have a great building to recruit great talent. Having a place where our clinical programs are located, where our data scientists are, next to a biotech development center, and having our medical students all integrated into that environment will allow them to be ready in the future for where healthcare is going.”

In the 1940s, Lillie and Roy Cullen and the M.D. Anderson Foundation were instrumental in establishing the Texas Medical Center, which is now the world’s largest medical complex.

“Baylor is the place it is today because of philanthropy,” Klotman says. “The Cullen family, the M.D. Anderson Foundation, and the Albert and Margaret Alkek Foundation have been some of Baylor’s most devoted champions, which has enabled Baylor to mold generations of exceptional health sciences professionals. It is fitting that history is repeating itself with support for this state-of-the-art education building.”

The Cullen Foundation donated $30 million to the project. Rendering courtesy of BCM

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UH-backed project secures $3.6M to transform CO2 into sustainable fuel with cutting-edge tech

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A University of Houston-associated project was selected to receive $3.6 million from the U.S. Department of Energy’s Advanced Research Projects Agency-Energy that aims to transform sustainable fuel production.

Nonprofit research institute SRI is leading the project “Printed Microreactor for Renewable Energy Enabled Fuel Production” or PRIME-Fuel, which will try to develop a modular microreactor technology that converts carbon dioxide into methanol using renewable energy sources with UH contributing research.

“Renewables-to-liquids fuel production has the potential to boost the utility of renewable energy all while helping to lay the groundwork for the Biden-Harris Administration’s goals of creating a clean energy economy,” U.S. Secretary of Energy Jennifer M. Granholm says in an ARPA-E news release.

The project is part of ARPA-E’s $41 million Grid-free Renewable Energy Enabling New Ways to Economical Liquids and Long-term Storage program (or GREENWELLS, for short) that also includes 14 projects to develop technologies that use renewable energy sources to produce sustainable liquid fuels and chemicals, which can be transported and stored similarly to gasoline or oil, according to a news release.

Vemuri Balakotaiah and Praveen Bollini, faculty members of the William A. Brookshire Department of Chemical and Biomolecular Engineering, are co-investigators on the project. Rahul Pandey, is a UH alum, and the senior scientist with SRI and principal investigator on the project.

Teams working on the project will develop systems that use electricity, carbon dioxide and water at renewable energy sites to produce renewable liquid renewable fuels that offer a clean alternative for sectors like transportation. Using cheaper electricity from sources like wind and solar can lower production costs, and create affordable and cleaner long-term energy storage solutions.

Researchers Rahul Pandey, senior scientist with SRI and principal investigator (left), and Praveen Bollini, a University of Houston chemical engineering faculty, are key contributors to the microreactor project. Photo via uh.edu

“As a proud UH graduate, I have always been aware of the strength of the chemical and biomolecular engineering program at UH and kept myself updated on its cutting-edge research,” Pandey says in a news release. “This project had very specific requirements, including expertise in modeling transients in microreactors and the development of high-performance catalysts. The department excelled in both areas. When I reached out to Dr. Bollini and Dr. Bala, they were eager to collaborate, and everything naturally progressed from there.”

The PRIME-Fuel project will use cutting-edge mathematical modeling and SRI’s proprietary Co-Extrusion printing technology to design and manufacture the microreactor with the ability to continue producing methanol even when the renewable energy supply dips as low as 5 percent capacity. Researchers will develop a microreactor prototype capable of producing 30 MJe/day of methanol while meeting energy efficiency and process yield targets over a three-year span. When scaled up to a 100 megawatts electricity capacity plant, it can be capable of producing 225 tons of methanol per day at a lower cost. The researchers predict five years as a “reasonable” timeline of when this can hit the market.

“What we are building here is a prototype or proof of concept for a platform technology, which has diverse applications in the entire energy and chemicals industry,” Pandey continues. “Right now, we are aiming to produce methanol, but this technology can actually be applied to a much broader set of energy carriers and chemicals.”

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This article originally ran on EnergyCapital.

Houston innovator drives collaboration, access to investment with female-focused group

HOUSTON INNOVATORS PODCAST EPISODE 262

After working in technology in her home country of Pakistan, Samina Farid, who was raised in the United States, found her way to Houston in the '70s where business was booming.

She was recruited to work at Houston Natural Gas — a company that would later merge and create Enron — where she rose through the ranks and oversaw systems development for the company before taking on a role running the pipelines.

"When you're in technology, you're always looking for inefficiencies, and you always see areas where you can improve," Farid says on the Houston Innovators Podcast, explaining that she moved on from Enron in the mid-'80s, which was an exciting time for the industry.

"We had these silos of data across the industry, and I felt like we needed to be communicating better, having a good source of data, and making sure we weren't continuing to have the problems we were having," she says. "That was really the seed that got me started in the idea of building a company."

She co-founded Merrick Systems, a software solutions business for managing oil and gas production, with her nephew, and thus began her own entrepreneurial journey. She came to another crossroads in her career after selling that business in 2014 and surviving her own battle with breast cancer.

"I got involved in investing because the guys used to talk about it — there was always men around me," Farid says. "I was curious."

In 2019, she joined an organization called Golden Seeds. Founded in 2005 in New York, the network of angel investors funding female-founded enterprises has grown to around 280 members across eight chapters. Suzan Deison, CEO of the Houston Women's Chamber, was integral in bringing the organization to Houston, and now Farid leads it as head of the Houston Chapter of Golden Seeds.

For Farid, the opportunity for Houston is the national network of investors — both to connect local female founders to potential capital from coast to coast and to give Houston investors deal flow from across the country.

"It was so hard for me to get funding for my own company," Farid says. "Having access to capital was only on the coasts. Software and startups was too risky."

Now, with Golden Seeds, the opportunity is there — and Farid says its an extremely collaborative investor network, working with local organizations like the Houston Angel Network and TiE Houston.

"With angel investing, when we put our money in, we want these companies to succeed," she says."We want more people to see these companies and to invest in them. We're not competing. We want to work with others to help these companies succeed."

Building a biotech workforce: How this Houston program is shaping the next generation

future focused

Houston is currently in need of biomanufacturing professionals to keep up with the ever-growing industry. That's what Saniya Mansuri, health care consultant for BioPath @ TMC, says.

“Houston has lost out on a big biopharmaceutical company. And when there was a feasibility study that was done, it was identified that one of the reasons that Houston wasn't chosen was the lack of a workforce and a lack of workforce development programs,” she explains.

Mansuri and the TMC Innovation team are doing just that with the introduction of the new program. She moved from Toronto in 2023. When she applied for a role at TMC Innovation, she was handpicked to help shepherd the BioPath program, thanks to her background that included starting a nonprofit for underserved youth in Canada.

The goal of the BioPath program is to attract young people considering going into the trades to learn the skills to become biomanufacturing professionals. According to BioPath’s website, 42 percent of TMC institutions anticipate a great need for biotechnicians in the near future, but there’s a lack of places for workers to train that aren’t part of a four-year degree. BioPath not only helps to recruit youths to careers that only require two years of training, but educates them for success in their newly chosen jobs.

“For the role of biomanufacturing technician, you can do a certificate program, get certified and enter into an entry level career that pays upwards of $50,000 — a stable career where there is a lot of development and job mobility involved,” says Mansuri.

This school year saw the debut of a pilot program that began with marketing and awareness to begin to get kids excited. Working with the organization Bridge Year, BioPath has created a booth for career fairs at which there’s a simulation of the skills involved in column chromatography that potential technicians would be learning. The booth is currently touring HISD high schools.

BioPath is also partnering with the national nonprofit, Learning Undefeated, to create a mobile STEM lab that will park at schools starting in January.

“Instead of students going to a biology class, you would swap it out for a class on this mobile STEM lab, and we have a biomanufacturing activity and curriculum that the students would learn,” explains Mansuri.

But that’s only the beginning. BioPath is looking at securing internships for the students, as well as sponsoring interested students in attending a biomanufacturing summer camp run by Texas A&M. Once educated, Mansuri and her team will help their charges with certification, mentorship and finding jobs post-certification.

Mansuri says she’s already received emails from interested students who have taken part in the “Career Test Drive” booth, but expects more after a soft launch in February in which 200 high school students will come to the TMC to learn more. The future for biomanufacturing in Houston is looking more promising already.

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