# Electrostatic and induction effects in the solubility of water in   alkanes

**Authors:** D. Asthagiri, A. Valiya Parambathu, Deepti Ballal, Walter G., Chapman

arXiv: 1705.05352 · 2017-09-13

## TL;DR

This study investigates the electrostatic and induction effects influencing water solubility in alkanes, using advanced forcefields and quantum calculations to better understand and predict transfer free energies.

## Contribution

It demonstrates that electrostatic and induction effects are crucial in water-alkane interactions, challenging previous models that ignored these effects and improving the accuracy of solubility predictions.

## Key findings

- CGenFF predicts positive transfer free energy close to experiments.
- AMOEBA models predict negative transfer free energy with small deviations.
- Electrostatic and induction effects are key in water's solubility in alkanes.

## Abstract

Experiments show that at 298~K and 1 atm pressure the transfer free energy, $\mu^{\rm ex}$, of water from its vapor to liquid normal alkanes $C_nH_{2n+2}$ ($n=5\ldots12$) is negative. Earlier it was found that with the united-atom TraPPe model for alkanes and the SPC/E model for water, one had to artificially enhance the attractive alkane-water cross interaction to capture this behavior. Here we revisit the calculation of $\mu^{\rm ex}$ using the polarizable AMOEBA and the non-polarizable Charmm General (CGenFF) forcefields. We test both the AMOEBA03 and AMOEBA14 water models; the former has been validated with the AMOEBA alkane model while the latter is a revision of AMOEBA03 to better describe liquid water. We calculate $\mu^{\rm ex}$ using the test particle method. With CGenFF, $\mu^{\rm ex}$ is positive and the error relative to experiments is about 1.5 $k_{\rm B}T$. With AMOEBA, $\mu^{\rm ex}$ is negative and deviations relative to experiments are between 0.25 $k_{\rm B}T$ (AMOEBA14) and 0.5 $k_{\rm B}T$ (AMOEBA03). Quantum chemical calculations in a continuum solvent suggest that zero point effects may account for some of the deviation. Forcefield limitations notwithstanding, electrostatic and induction effects, commonly ignored in considerations of water-alkane interactions, appear to be decisive in the solubility of water in alkanes.

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/1705.05352/full.md

## References

51 references — full list in the complete paper: https://tomesphere.com/paper/1705.05352/full.md

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Source: https://tomesphere.com/paper/1705.05352