Journal ArticleDOI
Wavefunction methods for the accurate characterization of water clusters
TLDR
A review of the recent and exciting work in this area and an overview of popular strategies for generating reliable properties and benchmark quality energetics for water clusters with correlated wavefunction methods can be found in this paper.Abstract:
Although the first ab initio Hartree–Fock computations of the water dimer were reported more than four decades ago, the detailed characterization of water clusters with sophisticated electronic structure techniques remains an important and vibrant area of research. The field of computational quantum chemistry has made significant advances since those pioneering studies. Geometry optimizations of the water dimer can now be carried out at the CCSDTQ level, and CCSD(T) energies can be computed with the aug-cc-pVTZ basis for clusters as large as (H2O)17. Some of these high-level studies are starting to reveal that the electronic structure is harder to describe for some hydrogen bonds than others. For example, discrepancies between MP2 and CCSD(T) energetics tend to increase when there are qualitative differences in the hydrogen-bonding networks of the water clusters being studied. This review highlights the recent and exciting work in this area and provides an overview of popular strategies for generating reliable properties and benchmark quality energetics for water clusters with correlated wavefunction methods.read more
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Quantum Chemical Investigations on Molecular Clusters
Posted Content
A critical assessment of two-body and three-body interactions in water
TL;DR: A new model is introduced, HBB2-pol, which is capable of accurately mapping CCSD(T) results for water dimers and trimers into an efficient analytical function and is further established through comparison with the experimentally determined second and third virial coefficients.
Journal ArticleDOI
Conventional and Explicitly Correlated ab Initio Benchmark Study on Water Clusters: Revision of the BEGDB and WATER27 Data Sets
TL;DR: Benchmark ab initio energies for BEGDB and WATER27 data sets have been re-examined at the MP2 and CCSD(T) levels with both conventional and explicitly correlated (F12) approaches, and terms beyond four-body can be adequately captured at theMP2-F12 level.
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Different Ways of Hydrogen Bonding in Water - Why Does Warm Water Freeze Faster than Cold Water?
TL;DR: Using vibrational spectroscopy and modeling water with DFT-optimized water clusters, 16 out of a possible 36 different types of H-bonds are identified and ordered according to their intrinsic strength, revealing a striking linear dependence between the intrinsic strength of H -bonding as measured by the local H- bond stretching force constant and the delocalization energy associated with charge transfer.
Journal ArticleDOI
Recent developments in symmetry-adapted perturbation theory
TL;DR: Symmetry-adapted perturbation theory (SAPT) is a well-established method to compute accurate intermolecular interaction energies in terms of physical effects such as electrostatics, induction (polarization), dispersion, and exchange as mentioned in this paper.
References
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Harmonic Vibrational Frequencies: An Evaluation of Hartree−Fock, Møller−Plesset, Quadratic Configuration Interaction, Density Functional Theory, and Semiempirical Scale Factors
Anthony P. Scott,Leo Radom +1 more
TL;DR: In this paper, scaling factors for fundamental vibrational frequencies, low-frequency vibrations, zero-point vibrational energies (ZPVE), and thermal contributions to enthalpy and entropy from harmonic frequencies determined at 19 levels of theory have been derived through a least-squares approach.