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Development and validation of a parameter-free model chemistry for the computation of reliable reaction rates
TLDR
In this paper, a recently developed model chemistry (jun-Cheap) has been slightly modified and proposed as an effective, reliable and parameter-free scheme for the computation of accurate reaction rates with special reference to astrochemical and atmospheric processes.Abstract:
A recently developed model chemistry (jun-Cheap) has been slightly modified and proposed as an effective, reliable and parameter-free scheme for the computation of accurate reaction rates with special reference to astrochemical and atmospheric processes. Benchmarks with different sets of state-of-the-art energy barriers spanning a wide range of values show that, in the absence of strong multi-reference contributions, the proposed model outperforms the most well-known model chemistries, reaching a sub-chemical accuracy without any empirical parameter and with affordable computer times. Some test cases show that geometries, energy barriers, zero point energies and thermal contributions computed at this level can be used in the framework of the master equation approach based on ab-initio transition state theory (AITSTME) for obtaining accurate reaction rates.read more
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NIST-JANAF Thermochemical Tables. I. Ten Organic Molecules Related to Atmospheric Chemistry
TL;DR: The structural, spectroscopic, and thermodynamic properties of 10 gas phase organic molecules related to atmospheric chemistry, including three peroxides and four carboxylic acids, are reviewed in this article.
Journal ArticleDOI
The expectation value of the spin operator Ŝ2 as a diagnostic tool in coupled cluster theory
He Yuan,Dieter Cremer +1 more
TL;DR: In this article, a reliable diagnostic tool correctly reflecting the influence of spin contamination on the UHF-CCSD energy is obtained by just considering the energy related part of 〈 S 2 〉 CCSD.
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Accuracy Meets Interpretability for Computational Spectroscopy by Means of Hybrid and Double-Hybrid Functionals.
TL;DR: It is shown that last-generation hybrid and double hybrid functionals in conjunction with partially augmented double- and triple-zeta basis sets can offer, in the framework of second order vibrational perturbation theory, a general, robust, and user-friendly tool with unprecedented accuracy for medium-size semi-rigid molecules.
Journal ArticleDOI
Discovering the elusive global minimum in a ternary chiral cluster: rotational spectra of propylene oxide trimer
TL;DR: The chirality controlled conformational landscape of the trimer of propylene oxide (PO), a prototypical chiral molecule, was investigated using rotational spectroscopy and a range of theoretical tools for conformational searches and for evaluating vibrational contributions to effective structures.
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Thermodynamics of Anharmonic Systems: Uncoupled Mode Approximations for Molecules.
TL;DR: For a selected test set of C2 to C8 linear and branched alkanes and species with different moieties, the enthalpies calculated using the HO(hf) model, UM-N, and UM-VT are all quite accurate comparing with reference values though the RMS errors of the HO model andUM-N are slightly higher thanUM-VT, however, the accuracies in entropy calculations differ significantly between these three models.
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