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Materials Science and
Engineering
Core Faculty
TMI's core faculty lead cutting-edge research by running their grants through the institute, fostering collaboration and resource sharing.
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Graduate Program
Our Materials Science and Engineering program is one of the best in the nation, and our graduates go on to be leaders in their fields.
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Research
TMI supports interdisciplinary research at UT Austin, with over 100 faculty focusing on clean energy, nanotechnology, and advanced materials using our state-of-the-art facilities.
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Home
Milk Reaction Inspires New Way to Make Highly Conductive Gel Films
A common chemical reaction that most people have seen first-hand is the inspiration for a new way to make a flexible gel film that could lead to innovations in sensors, batteries, robotics and more.
2D Artificial Neurons Mimic Complex Brain Abilities for Next-Gen AI Computing
Research published in Nature Nanotechnology shows the creation of atomically thin artificial neurons by stacking two-dimensional (2D) materials to expand the functionality of electronic memristors by making them responsive to both optical and electrical signals for the operation of winner-take-all neural networks with separate feedforward and feedback paths within the network.
Professor Deji Akinwande Elected as 2023 MRS Fellow
Electrical and Computer Engineering Professor Deji Akinwande, has been elected for the 2023 Class of MRS Fellows by the Materials Research Society (MRS).
James Chelikowsky Wins Feynman Prize
James R. Chelikowsky, Director of the Center for Computational Materials at the Oden Institute, has received the 2022 Foresight Institute Feynman Prize for Theory.
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Texas Materials Seminar Series
The Texas Materials Seminar Series features MSE 397 Seminars, TMI Distinguished Lectureships, and TMI Special Seminars, where leading faculty and professionals from around the world share cutting-edge innovations and advancements in materials engineering with our students.
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News
Graphene Double Moiré System Revolutionizes Quantum Materials Research
An international research team, led by scientists from The University of Texas at Austin, has unveiled a groundbreaking double moiré system made of four graphene layers. In this innovative structure, the top and bottom pairs form small-twist-angle bilayer graphene, while the middle interface is characterized by a large rotational mismatch. Fabricated using opto-thermoplasmonic nanolithography, this system introduces a new platform for exploring independently tunable flat bands in twisted bilayer graphene (TBG) structures.
Dr. Deji Akinwande Publishes in Nature Electronics
Dr. Deji Akinwande, Professor at The University of Texas at Austin, has made a notable contribution to the field of semiconductor physics with his latest publication, “The quantum limits of contact resistance and ballistic transport in 2D transistors” in Nature Electronics.
Fast-charging Lithium-ion Batteries: Advanced 3D Analysis of Electrode-electrolyte Interfaces with Secondary Ion Mass Spectrometry
Chen Liu, Andrei Dolocan, Zehao Cui, and Arumugam Manthiram have made significant progress in improving the fast-charging capabilities of lithium-ion batteries (LIBs), which are crucial for devices like smartphones and electric vehicles. Their work, published in The Journal of the American Chemical Society, focuses on how the chemistry of the interface between the battery electrodes and electrolyte can be optimized to make charging faster and more efficient.
From Scraps to Sips: Everyday Biomass Produces Drinking Water from Thin Air
Discarded food scraps, stray branches, seashells and many other natural materials are key ingredients in a new system that can pull drinkable water out of thin air developed by researchers from The University of Texas at Austin.
Pablo Vidal Receives Honorable Mention in TechConnect World 2025 Student Best Abstract Award Program
Pablo Vidal, a PhD student in the Materials Science and Engineering (MSE) program, has been awarded an Honorable Mention in the TechConnect World 2025 Student Best Abstract Award Program. This recognition highlights his research on developing manufacturing techniques and materials for personalized electroencephalography (EEG) tattoos.
$12M+
In Grant Funding
20+
Research Patents
10K+
