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Journal article

Genetic Algorithm Procreation Operators for Alloy Nanoparticle Catalysts

By Lysgaard, Steen1,2; Landis, David Dominic3,4; Bligaard, Thomas; Vegge, Tejs1,2

From

Department of Energy Conversion and Storage, Technical University of Denmark1

Atomic Scale Materials Modelling, Department of Energy Conversion and Storage, Technical University of Denmark2

Computational Atomic-scale Materials Design, Department of Physics, Technical University of Denmark3

Department of Physics, Technical University of Denmark4

The long-term stability of binary nanoparticles and clusters is one of the main challenges in the development of novel (electro-)catalysts for e.g. CO2 reduction. Here, we present a method for predicting the optimal composition and structure of alloy nanoparticles and clusters, with particular focus on the surface properties.

Based on a genetic algorithm (GA) we introduce and discuss efficient permutation operations that work by interchanging positions of elements depending on their local environment and position in the cluster. We discuss the fact that in order to be efficient, the operators have to be dynamic, i.e. change their behavior during the course of an algorithm run.

The implementation of the GA including the customized operators is freely available at http://svn.fysik.dtu. dk/projects/pga.

Language: English
Publisher: Springer US
Year: 2014
Pages: 33-39
ISSN: 15729028 and 10225528
Types: Journal article
DOI: 10.1007/s11244-013-0160-9
ORCIDs: Lysgaard, Steen , Bligaard, Thomas and Vegge, Tejs
Keywords

Copper–Nickel Cu–Ni Genetic algorithms Nanoparticle catalysts

Other keywords

Catalysis Characterization and Evaluation of Materials Chemistry Chemistry and Materials Science Industrial Chemistry/Chemical Engineering Pharmacy Physical Chemistry

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