2011
DOI: 10.1073/pnas.1006670108
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Simulation of surface processes

Abstract: Computer simulations of surface processes can reveal unexpected insight regarding atomic-scale structure and transitions. Here, the strengths and weaknesses of some commonly used approaches are reviewed as well as promising avenues for improvements. The electronic degrees of freedom are usually described by gradientdependent functionals within Kohn-Sham density functional theory. Although this level of theory has been remarkably successful in numerous studies, several important problems require a more accurate… Show more

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Cited by 96 publications
(109 citation statements)
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References 62 publications
(54 reference statements)
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“…One way to approach such multiple local minima problems is systematic coarse graining [29]. Alternatively, the full TST can be applied as opposed to HTST where, for example, the reversible work formulation is used to identify an optimal transition state and estimate the free energy change in going from the initial state to the transition state [30,31,32].…”
Section: Summary and Discussionmentioning
confidence: 99%
“…One way to approach such multiple local minima problems is systematic coarse graining [29]. Alternatively, the full TST can be applied as opposed to HTST where, for example, the reversible work formulation is used to identify an optimal transition state and estimate the free energy change in going from the initial state to the transition state [30,31,32].…”
Section: Summary and Discussionmentioning
confidence: 99%
“…The NEB method has turned out to be a powerful tool for determining transition mechanisms of atomic rearrangements, such as chemical reactions and diffusion events. Complex and counterintuitive mechanisms have, for example, been found for catalytic reactions and diffusion events controlling the morphology of growing crystal surfaces [22,23].…”
Section: Introductionmentioning
confidence: 99%
“…The contribution here by Jonsson (28) summarizes some of the important new directions that are being pursued to achieve these goals. That paper also highlights recent improvements in calculating dynamical effects, such as accurately finding transition states, computing preexponential factors, and predicting tunneling rates (which Jonsson (28) shows to only be important below ∼300 K). The description of transition states plays a dominant role in understanding the all important rates of catalytic reaction steps.…”
Section: Experimental and Theoretical Advances In Understanding Hetermentioning
confidence: 99%