AI Article Synopsis
- Path integral molecular simulations investigate the nuclear quantum effects (NQEs) on ethylene glycol's structure, dihedral landscape, and infrared spectrum using a new Hamiltonian-based model potential energy surface.
- The study reveals that the interactions between the OH groups are weakly affected by zero-point effects and temperature, with significant NQE impacts observed at low temperatures along the OCCO dihedral.
- The power spectrum obtained from these simulations closely matches the experimental infrared spectrum, indicating accuracy in band position predictions.
Article Abstract
Path integral molecular simulations are used to explore the nuclear quantum effects (NQEs) on the structure, dihedral landscape and infrared spectrum of ethylene glycol. The simulations are carried out on a new reaction surface Hamiltonian-based model potential energy surface, with special focus on the role of the OCCO and HOCC dihedrals. In contrast with classical simulations, we analyse how the intramolecular interactions between the OH groups change due to zero-point effects as well as temperature. These are found to be weak. The NQEs on the free energy profile along the OCCO dihedral are analysed, where notable effects are seen at low temperatures and found to be correlated with the radii of gyration of the atoms. Finally, the power spectrum of the molecule from path integral simulations is compared with the experimental infrared spectrum, yielding a good agreement of band positions.
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| http://dx.doi.org/10.1039/d4cp00700j | DOI Listing |
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