Current campus guidelines for any gathering other than academic classes, professional education programs (GTPE), or department meetings are available at

Tuesday, September 21 2021
2:00pm - 3:00pm
Virtual Event | Access Via RSVP
Free food
For more information:


Cecelia Jones - Assistant Director, Admin., Operations
Georgia Tech Institute for Materials
Marcus Nanotechnology Building, Suite 2131
Atlanta, GA 30332
Cell: 770-905-6425/Office: 404-894-7769 | Fax: 404-894-0186

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IMat Distinguished Lecture in Materials | Machine Learning and First-Principles Prediction of New Superhard Ternary & High-Entropy Borides
Professor Cheng-Chien Chen | Department of Physics, University of Alabama at Birmingham

Abstract: Super-hard materials exhibit a Vickers hardness H ≥ 40 GPa, and they have extensive industrial and technological applications. Due to the huge search space of possible element combinations, it is challenging to explore new superhard ternary or quaternary materials. In this talk, I will first discuss machine learning (ML) discovery of new superhard B-C-N and B-N-O compounds. The ML results are validated by evolutionary structure prediction and density functional theory (DFT). In particular, the proposed BC10N has a low formation energy and a high hardness H ~ 86 GPa only next to diamond. In the second part of the talk, I will discuss calculations of entropy formation ability (EFA) using both DFT and ML for 5-metal hexagonal high-entropy borides. The calculations indicate that EFA serves as a good descriptor for the synthesizability of high-entropy materials, some of which have superior mechanical properties promising for applications in extreme environments.

Bio: Cheng-Chien Chen received his Ph.D. in Physics from Stanford University in, 2011. Afterwards he became a Postdoctoral Scholar at the SLAC National Accelerator Laboratory and later an Aneesur Rahman Postdoctoral Fellow at the Argonne National Laboratory. He joined the Department of Physics at the University of Alabama at Birmingham (UAB) as an Assistant Professor in 2016. He is currently a Leadership Resource Allocation (LRAC) Awardee to use the NSF-funded Frontera Supercomputer and an NSF EPSCoR Research Fellow. Dr. Chen’s expertise lies in using quantum many-body simulations, first-principles calculations, and machine learning approaches to model and predict the properties of various quantum and functional materials.

Please register by September 15th to reserve your spot.

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