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Theoretical study of the CO 2 -O 2 van der Waals complex: potential energy surface and applications.

Yosra AjiliErnesto Quintas SánchezBilel MehnenPiotr Szymon ŻuchowskiFilip BrzękNayla El-KorkMarko GacesaRichard DawesMajdi Hochlaf
Published in: Physical chemistry chemical physics : PCCP (2022)
A four-dimensional-potential energy surface (4D-PES) of the atmospherically relevant carbon dioxide-oxygen molecule (CO 2 -O 2 ) van der Waals complex is mapped using the ab initio explicitly correlated coupled cluster method with single, double, and perturbative triple excitations (UCCSD(T)-F12b), and extrapolation to the complete basis set (CBS) limit using the cc-pVTZ-F12/cc-pVQZ-F12 bases and the l -3 formula. An analytic representation of the 4D-PES was fitted using the method of interpolating moving least squares (IMLS). These calculations predict that the most stable configuration of CO 2 -O 2 complex corresponds to a planar slipped-parallel structure with a binding energy of V ∼ -243 cm -1 . Another isomer is found on the PES, corresponding to a non-planar cross-shaped structure, with V ∼ -218 cm -1 . The transition structure connecting the two minima is found at V ∼ -211 cm -1 . We also performed comparisons with some CO 2 -X van der Waals complexes. Moreover, we provide a SAPT analysis of this molecular system. Then, we discuss the complexation induced shifts of CO 2 and O 2 . Afterwards, this new 4D-PES is employed to compute the second virial coefficient including temperature dependence. A comparison between quantities obtained in our calculations and those from experiments found close agreement attesting to the high quality of the PES and to the importance of considering a full description of the anisotropic potential for the derivation of thermophysical properties of CO 2 -O 2 mixtures.
Keyphrases
  • carbon dioxide
  • density functional theory
  • human health
  • molecular dynamics simulations
  • diabetic rats
  • endothelial cells
  • dna binding
  • drug induced
  • single molecule
  • diffusion weighted imaging