Laura McCaslin scite author profile

The performance of 24 density functionals, Hartree-Fock, and MP2 is assessed with respect to the CCSD(T)/CBS* energetics of 49 sulfate-water clusters with three to six water molecules. Included among the density functionals are GGA, meta-GGA, hybrid GGA, hybrid meta-GGA, and double hybrid density functionals, as well as the LDA. Three types of dispersion corrections (VV10, XDM, and -D) are tested in conjunction with these functionals. The 26 methods are compared using the relative and binding energies of the sulfate-water clusters as the main criteria. It was discovered that a majority of the tested density functionals are unable to simultaneously capture the physics necessary to describe both the relative and binding energies of the anionic solvation clusters. The three density functionals with the best overall performance are XYG3, ωB97X-2, and XYGJ-OS. The only other density functional that performs comparably to these three double hybrids is M11. A majority of the density functionals that contain a fraction of exact exchange tend to perform well only for the relative energies, while functionals lacking exact exchange generally perform poorly with respect to both criteria. However, the meta-GGA functional, M11-L, stands out due to its superior performance for the relative energies. While dispersion correction functionals cannot replace the accuracy provided by MP2 correlation, it is shown that the proper combination of a hybrid GGA functional (LC-ωPBE) with a dispersion correction functional (VV10) can lead to drastic improvements in the binding energies of the parent functional, while preserving its performance with respect to the relative energies. Ultimately, however, MP2 has the best overall performance out of the 26 benchmarked methods.

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Calculation of fundamental frequencies for small polyatomic molecules: a comparison between correlation consistent and atomic natural orbital basis sets

McCaslin

Stanton

2013

Molecular Physics

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Communication: Thermal unimolecular decomposition of syn-CH3CHOO: A kinetic study

Nguyen

McCaslin

McCarthy

et al. 2016

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The thermal decomposition of syn-ethanal-oxide (syn-CH 3 CHOO) through vinyl hydrogen peroxide (VHP) leading to hydroxyl radical is characterized using a modification of the HEAT thermochemical protocol. The isomerization step of syn-CH 3 CHOO to VHP via a 1,4 H-shift, which involves a moderate barrier of 72 kJ/mol, is found to be rate determining. A two-dimensional master equation approach, in combination with semi-classical transition state theory, is employed to calculate the time evolution of various species as well as to obtain phenomenological rate coefficients. This work suggests that, under boundary layer conditions in the atmosphere, thermal unimolecular decomposition is the most important sink of syn-CH 3 CHOO. Thus, the title reaction should be included into atmospheric modeling. The fate of cold VHP, the intermediate stabilized by collisions with a third body, has also been investigated. Published by AIP Publishing. [http://dx

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Refined energetic ordering for sulphate–water (n = 3–6) clusters using high-level electronic structure calculations

et al. 2012

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Mechanisms and competition of halide substitution and hydrolysis in reactions of N ₂ O ₅ with seawater

2019

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SN2-type halide substitution and hydrolysis are two of the most ubiquitous reactions in chemistry. The interplay between these processes is fundamental in atmospheric chemistry through reactions of N2O5 and seawater. N2O5 plays a major role in regulating levels of O3, OH, NOx, and CH4. While the reactions of N2O5 and seawater are of central importance, little is known about their mechanisms. Of interest is the activation of Cl in seawater by the formation of gaseous ClNO2, which occurs despite the fact that hydrolysis (to HNO3) is energetically more favorable. We determine key features of the reaction landscape that account for this behavior in a theoretical study of the cluster N2O5/Cl−/H2O. This was carried out using ab initio molecular dynamics to determine reaction pathways, structures, and time scales. While hydrolysis of N2O5 occurs in the absence of Cl−, results here reveal that a low-lying pathway featuring halide substitution intermediates enhances hydrolysis.

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Laura McCaslin

The Performance of Density Functionals for Sulfate–Water Clusters

Calculation of fundamental frequencies for small polyatomic molecules: a comparison between correlation consistent and atomic natural orbital basis sets

Communication: Thermal unimolecular decomposition of syn-CH3CHOO: A kinetic study

Refined energetic ordering for sulphate–water (n = 3–6) clusters using high-level electronic structure calculations

Mechanisms and competition of halide substitution and hydrolysis in reactions of N ₂ O ₅ with seawater

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About

Laura McCaslin

The Performance of Density Functionals for Sulfate–Water Clusters

Calculation of fundamental frequencies for small polyatomic molecules: a comparison between correlation consistent and atomic natural orbital basis sets

Communication: Thermal unimolecular decomposition of syn-CH3CHOO: A kinetic study

Refined energetic ordering for sulphate–water (n = 3–6) clusters using high-level electronic structure calculations

Mechanisms and competition of halide substitution and hydrolysis in reactions of N 2 O 5 with seawater

Contact Info

Product

Resources

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Mechanisms and competition of halide substitution and hydrolysis in reactions of N ₂ O ₅ with seawater