Chemical Engineering

The National Academy of Engineering has elected Noel T. Clemens, a professor in the Cockrell School of Engineering’s Department of Aerospace Engineering and Engineering Mechanics at The University of Texas at Austin, to the academy for 2024. Christine Schmidt, who received a bachelor’s degree in chemical engineering from UT and later served on the University’s faculty from 1996 to 2012, has also been elected.

Nicholas Peppas is among a handful of prestigious researchers whose publications were featured in the inaugural issue of Nature Chemical Engineering. The article, A Bright Future in Medicine for Chemical Engineering, is co-authored with Professor Robert Langer from the Massachusetts Institute of Technology.

A pair of Texas Engineers are teaming up with scientists from France as part of a six-year-old collaborative research program.

Delia Milliron and D. Nicolas Espinoza were among the 2023 awardees of the Dr. Cécile DeWitt-Morette France-UT Endowed Excellence Fund. 

A new class of designer gels is on the way, potentially packed with a combination of properties that have traditionally been mutually exclusive to either stiff or soft materials.

Brian Belardi has been awarded the prestigious David and Lucile Packard Foundation Packard Fellowship for Science and Engineering, a high honor that recognizes the nation’s top young scientists and engineers and spurs them to take on risky, impactful projects.

Joaquin Resasco is gathering momentum.

In the last month, he has won the Young Investigator Award from the Society of Hispanic Professional Engineers (SHPE) and was recognized as part of the American Institute of Chemical Engineers’ 35 Under 35 group (AIChE).

It's a well-known fact that air quality can impact our health. It's something that can be seen all the way down to the cellular level, as different pollutants in the air can influence biophysical cell characteristics.

Texas researchers are diving deep into this phenomenon, aiming to answer the question of how different types of respiratory cells handle the stress of toxic pollutants. More specifically, they're investigating cell shape, how it may serve as a distress signal of toxic air pollution and the impact of different mixtures of pollutants.

An alliance of nine universities, three national labs and 37 companies will tackle one of the biggest hurdles to decarbonizing manufacturing: carbon dioxide emissions from generating process heat.

Researchers at The University of Texas at Austin will play a significant role in the effort that aims to replace the energy source that powers most manufacturing processes, swapping out hydrocarbon fuels for clean electricity – generated through renewable sources such as solar and wind. Doing this could make a major impact, as manufacturing represents more than 30% of U.S. carbon dioxide emissions.

Constructing materials by dynamic assembly of nanoparticles offers opportunities to control the way they react to changes in their environment – such as temperature, light and chemical queues – all based on how their tiny building blocks are arranged. Many of the materials capable of major changes – such as the ability to absorb light or become transparent, to flow or form a rigid solid – are messy, with a disordered structure that modern techniques struggle to decode.

The University of Texas at Austin is leading a new energy consortium in partnership with six New Mexico and Texas universities and two national laboratories for development of the Permian Energy Development Laboratory. The memorandum of understanding reflects a shared goal of conducting advanced energy research, educating the next generation of energy professionals, and supporting energy-intensive communities and the natural resources on which they depend.

Researchers behind discoveries that led to vaccines for the virus that causes COVID-19 have identified a potential Achilles heel that exists in all coronaviruses. These findings, led by researchers at The University of Texas at Austin, could aid the development of improved treatments for COVID-19 and also protect against existing and emerging coronaviruses.

As the world's attention has turned back to space travel in recent years, logistics questions about how to pull off long missions, and maybe even someday life on other planets, have popped up. And researchers around the world are starting to look at taking the burgeoning field of biomanufacturing – the use of engineered biological systems to create products – to space to support the idea of space-bound populations.

A research team from The University of Texas at Austin is part of a new program that aims to take the initial steps to mitigate risks associated with manufacturing capabilities that rely on biological processes in space. The Defense Advanced Research Projects Agency (DARPA) Biomanufacturing: Survival, Utility, and Reliability beyond Earth (B-SURE) program will address foundational scientific questions to determine how well industrial biomanufacturing microorganisms can perform in space conditions.

Four faculty members at The University of Texas at Austin have been named to the National Academy of Inventors’ 2023 class of Senior Members. The honorees include three faculty members from the Cockrell School of Engineering and one from the College of Natural Sciences.

They are Jennifer Maynard, Jason McLellan, Delia Milliron and Sriram Vishwanath.

The National Academy of Engineering has elected Benny Freeman, a professor in the McKetta Department of Chemical Engineering at The University of Texas at Austin, to the academy for 2023. Alumnus Fariborz Maseeh, who received a master’s degree in civil engineering from UT Austin, has also been elected.

The University of Texas at Austin will be home to a new multidisciplinary research and education initiative based in its Cockrell School of Engineering – the Energy Emissions Modeling and Data Lab (EEMDL) – that will address the growing need for accurate, timely, and clear accounting of greenhouse gas emissions across global oil and natural gas supply chains. Data and analysis from this new endeavor will help both public and private institutions develop climate strategies and actions informed by accurate, verified data, identifying opportunities for emissions reductions.

The University of Texas at Austin has a rich history in 3D printing, inventing one of the first forms of the technology, and now Texas Engineers have received a grant to tackle some of its most glaring problems.

In 3D printing, there is a tradeoff between the precision needed to create the object (resolution) and the speed and scale at which the object can be made (throughput). This is especially true at the nanoscale, where it is practically infeasible to make any kind of complex structure with multiple types of materials or patterns at a high rate.

Nearly two years after COVID-19 vaccines entered widespread use, featuring technology from researchers at The University of Texas at Austin, the Cockrell School of Engineering and the College of Natural Sciences have launched Texas Biologics, a cross-disciplinary effort made up of world-renowned faculty members and researchers working across all areas of therapeutics.

Nicholas Peppas has been honored with the Biomaterials Global Impact Award for 2022, which he received during the 32nd Annual Conference of the European Society of Biomaterials in Bordeaux, France. The award recognizes established researchers in the field of biomaterials who have accomplished great achievement.

The Center for Materials for Water and Energy Systems (M-WET) has been studying novel membrane-based approaches — and new materials — to change how we purify water for four years, and that work will continue after the U.S. Department of Energy (DOE) renewed funding for the initiative. M-WET will receive an additional $12 million over another four years, through DOE’s Energy Frontier Research Center Program.

A new grant for researchers across several departments and schools at The University of Texas at Austin aims to establish a new hub of activity to better understand and replicate the skills that cells possess. The grant from the National Science Foundation will support a platform for creating synthetic cells with an emphasis on how they link up and exchange material and information with one another.