Journal
JOURNAL OF CHEMICAL THEORY AND COMPUTATION
Volume 7, Issue 5, Pages 1443-1449Publisher
AMER CHEMICAL SOC
DOI: 10.1021/ct2000952
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Funding
- NSF [OCI-0749217]
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We show that first principles hybrid functional (PBE0) simulations of the infrared spectrum of liquid water yields a much better agreement with experimental results than a semilocal functional description; in particular, the quantitative accord with measured stretching and bending bands is very good. Such an improved description stems from two effects: a more accurate account, at the PBE0 level of theory, of the vibrational properties of the monomer and dimer and an underlying structural model for the liquid with a smaller number of hydrogen bonds and oxygen coordination than those obtained with semilocal functionals. The average electronic gap of the liquid is increased by 60% with respect to the PBE value, when computed at the PBE0 level of theory, and is in fair agreement with experimental results.
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