Litcius/Paper detail

A simplified method for theoretical sum frequency generation spectroscopy calculation and interpretation: The “pop model”

Wanlin Chen, Dorian Louaas, Flavio Siro Brigiano, Simone Pezzotti, Marie‐Pierre Gaigeot

2024The Journal of Chemical Physics10 citationsDOI

Abstract

Existing methods to compute theoretical spectra are restricted to the use of time-correlation functions evaluated from accurate atomistic molecular dynamics simulations, often at the ab initio level. The molecular interpretation of the computed spectra requires additional steps to deconvolve the spectroscopic contributions from local water and surface structural populations at the interface. The lack of a standard procedure to do this often hampers rationalization. To overcome these challenges, we rewrite the equations for spectra calculation into a sum of partial contributions from interfacial populations, weighted by their abundance at the interface. We show that SFG signatures from each population can be parameterized into a minimum dataset of reference partial spectra. Accurate spectra can then be predicted by just evaluating the statistics of interfacial populations, which can be done even with force field simulations as well as with analytic models. This approach broadens the range of simulation techniques from which theoretical spectra can be calculated, opening toward non-atomistic and Monte Carlo simulation approaches. Most notably, it allows constructing accurate theoretical spectra for interfacial conditions that cannot even be simulated, as we demonstrate for the pH-dependent SFG spectra of silica/water interfaces.

Topics & Concepts

Spectral lineStatistical physicsMonte Carlo methodParameterized complexityRange (aeronautics)Molecular dynamicsPopulationComputational physicsInterpretation (philosophy)DeconvolutionComputer scienceAlgorithmPhysicsChemistryComputational chemistryMathematicsMaterials scienceStatisticsQuantum mechanicsSociologyDemographyProgramming languageComposite materialSpectroscopy and Quantum Chemical StudiesChemical and Physical Properties in Aqueous SolutionsElectrochemical Analysis and Applications