This course will provide the background and a set of examples of how computational methods can be applied to design of materials with desired structure and properties. The methods will span multi-length and time scales, including first-principles approaches, molecular dynamics simulations, stochastic methods for optimization and sampling, and computational thermodynamics. Lectures will be complemented by computer labs with hands-on exercises using publicly available or commercial software packages.
Spring | Summer | Fall | ||
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(Session 1) | (Session 2) | |||
2023 |
Computational Materials Design (3c)
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2022 |
Computational Materials Design (3c)
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2021 |
Computational Materials Design (3c)
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2020 |
Computational Materials Design (3c)
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2019 |
Computational Materials Design (3c)
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Computational Materials Design (3c)
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2018 |
Computational Materials Design (3c)
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2017 |
Computational Materials Design (3c)
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2016 |
Computational Materials Design (3c)
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2015 |
Computational Materials Design (3c)
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2014 | ||||
2013 | ||||
2012 | ||||
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2010 | ||||
2009 | ||||
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1998 |