Research roundup

These 3 Houston-area researchers receive millions in grants for ongoing innovation projects

Three health and tech research projects coming out of the Houston area have received grants to continue their work. Getty Images

Money makes the world go 'round, and that's certainly the case with research projects. Grants are what drives research at academic institutions across the country and fuel the next great innovations.

These three projects coming out of Houston-area universities were all granted multimillion-dollar sums in order to continue their health tech, cancer-prevention, and even electric vehicle battery research projects,

University of Houston's $3.2 million grant for its next-generation micro CT scan

Associate professor of physics Mini Das developed a better way to approach CT scans. Photo via uh.edu

In an effort to improve imaging and lower radiation, Mini Das, associate professor of physics at the University of Houston, is moving the needle on introducing the next generation of micro computed tomography (CT) imaging. Das recently received a five-year, $3.2 million grant from the National Institute of Biomedical Imaging and Bioengineering to help move along her work in this field.

"This has the potential to transform the landscape of micro-CT imaging," says Das in a news release.

Das is responsible for developing the theory, instrumentation and algorithms for spectral phase-contrast imaging (PCI) that allows for lower radiation with higher image details, according to the release.

"Current X-ray and CT systems have inherent contrast limitations and dense tissue and cancer can often look similar. Even if you increase the radiation dose, there is a limit to what you can see. In addition, image noise becomes significant when increasing resolution to see fine details, often desirable when scanning small objects," says Das.

Rice University researcher's $2.4 million grant to advance on car batteries

This company’s machine learning programs are making driving in Houston safer — and cheaper

A Rice University scientist is looking to optimize car batteries. Pexels

A Rice University scientist is working toward improving batteries for electric vehicles. Materials scientist Ming Tang and his colleagues — backed by a $2.4 million grant from the United States Advanced Battery Consortium — are working on a project led by Worcester Polytechnic Institute (WPI) in Massachusetts, which will run for 36 months and will focus on low-cost and fast-charging batteries.

"Traditional battery electrodes are prepared by the slurry casting method and usually have uniform porosity throughout the electrode thickness," says Tang, an assistant professor of materials science and nanoengineering, in a news release. "However, our earlier modeling study shows that an electrode could have better rate performance by having two or more layers with different porosities.

"Now with the Missouri University of Science and Technology and WPI developing a new dry printing method for battery electrode fabrication, such layered electrodes can be manufactured relatively easily," he said. Tang's group will use modeling to optimize the structural parameters of multilayer electrodes to guide their fabrication.

The academics will also work with a manufacturer, Microvast, that will assemble large-format pouch cells using layered electrodes and evaluate the electrochemical performance against the program goals, according to the release.

"The public/private partnership is critical to steer the research performed at universities," Tang says. "It helps us understand what matters most to commercial applications and what gaps remain between what we have and what is needed by the market. It also provides valuable feedback and gives the project access to the state-of-the-art commercial battery fabrication and testing capabilities."


Texas A&M faculty member's $5 million grant for cancer research

Tanmay Lele of Texas A&M University is looking at how cells react to mechanical forces in cancer. Photo via tamu.edu

Tanmay Lele, a new faculty member in Texas A&M University's Department of Biomedical Engineering, received a $5 million Recruitment of Established Investigators grant from the Cancer Prevention and Research Institute of Texas (CPRIT) in May to research how cancer progresses.

More specifically, Lele's research focuses on mechanobiology and how cells sense external mechanical forces as well as how they generate mechanical forces, and how these mechanical forces impact cell function, according to a news release from A&M.

"The nuclei in normal tissue have smooth surfaces, but over time the surfaces of cancer nuclei become irregular in shape," Lele says in the release. "Now, why? Nobody really knows. We're still at the tip of the iceberg at trying to figure this problem out. But nuclear abnormalities are ubiquitous and occur in all kinds of cancers — breast, prostate and lung cancers."

Lele will work from two laboratories — one in College Station and one in the Texas A&M Health Science Center's Institute of Biosciences & Technology in Houston. THe will collaborate with Dr. Michael Mancini and Dr. Fabio Stossi from Baylor College of Medicine.

"Like any other basic field, we are trying to make discoveries with the hope that they will have long-term impacts on human health," Lele says.

Trending News

Building Houston

 
 

innovation delivered

Self-driving pizza delivery goes live in Houston

Domino's and Nuro announced their partnership in 2019 — and now the robots are hitting the roads. Photo courtesy of Nuro

After announcing their partnership to work on pizza deliveries via self-driving robots in 2019, Dominos and Nuro have officially rolled out their technology to one part of town.

Beginning this week, if you place a prepaid order from Domino's in Woodland Heights (3209 Houston Ave.), you might have the option to have one of Nuro's R2 robot come to your door. This vehicle is the first do deliver completely autonomously without occupants with a regulatory approval by the U.S. Department of Transportation, according to a news release.

"We're excited to continue innovating the delivery experience for Domino's customers by testing autonomous delivery with Nuro in Houston," says Dennis Maloney, Domino's senior vice president and chief innovation officer, in the release. "There is still so much for our brand to learn about the autonomous delivery space. This program will allow us to better understand how customers respond to the deliveries, how they interact with the robot and how it affects store operations."

Orders placed at select dates and times will have the option to be delivered autonomously. Photo courtesy of Nuro

The Nuro deliveries will be available on select days and times, and users will be able to opt for the autonomous deliveries when they make their prepaid orders online. They will then receive a code via text message to use on the robot to open the hatch to retrieve their order.

"Nuro's mission is to better everyday life through robotics. Now, for the first time, we're launching real world, autonomous deliveries with R2 and Domino's," says Dave Ferguson, Nuro co-founder and president, in the release. "We're excited to introduce our autonomous delivery bots to a select set of Domino's customers in Houston. We can't wait to see what they think."

California-based Nuro has launched a few delivery pilots in Houston over the past few years, including the first Nuro pilot program with Kroger in March 2019, grocery delivery from Walmart that was revealed in December 2019, and pharmacy delivery that launched last summer.

From being located in a state open to rolling out new AV regulations to Houston's diversity — both in its inhabitants to its roadways, the Bayou City stood out to Nuro, says Sola Lawal, product operations manager at Nuro.

"As a company, we tried to find a city that would allow us to test a number of different things to figure out what really works and who it works for," Lawal says on an episode of the Houston Innovators Podcast. "It's hard to find cities that are better than Houston at enabling that level of testing."

Steam the episode here.

Trending News