An approach towards understanding the structure of complex molecular systems: the case of lower aliphatic alcohols

Vrhovšek, Aleksander; Gereben, Orsolya; Pothoczki, Szilvia; Tomšič, Matija; Jamnik, Andrej; Kohara, Shinji; Pusztai, László

doi:10.1088/0953-8984/22/40/404214

Cited by 19 publications

(33 citation statements)

References 41 publications

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“…Intramolecular bond distances were constrained to the equilibrium values (r CH = 1.09 Å, r CO = 1.41 Å, r OH = 0.945 Å) by means of the SHAKE algorithm, while the remaining intramolecular motions such as bond-angle bending and rotation of the methyl group around the axis of the C-O bond were treated using a harmonic and a cosine potential, respectively, with the corresponding OPLS-AA parameters which are reported in the Supplementary Information . This model has proven to be able to reproduce in a satisfactory way the density and heat of vaporization of liquid methanol62, as well as its structure63. The equations of motion were integrated using the leapfrog algorithm with a timestep of 1 fs.…”

Section: Methodsmentioning

confidence: 99%

The hydrogen-bond collective dynamics in liquid methanol

Bellissima

Panfilis

Bafile

et al. 2016

Sci Rep

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The relatively simple molecular structure of hydrogen-bonded (HB) systems is often belied by their exceptionally complex thermodynamic and microscopic behaviour. For this reason, after a thorough experimental, computational and theoretical scrutiny, the dynamics of molecules in HB systems still eludes a comprehensive understanding. Aiming at shedding some insight into this topic, we jointly used neutron Brillouin scattering and molecular dynamics simulations to probe the dynamics of a prototypical hydrogen-bonded alcohol, liquid methanol. The comparison with the most thoroughly investigated HB system, liquid water, pinpoints common behaviours of their THz microscopic dynamics, thereby providing additional information on the role of HB dynamics in these two systems. This study demonstrates that the dynamic behaviour of methanol is much richer than what so far known, and prompts us to establish striking analogies with the features of liquid and supercooled water. In particular, based on the strong differences between the structural properties of the two systems, our results suggest that the assignment of some dynamical properties to the tetrahedral character of water structure should be questioned. We finally highlight the similarities between the characteristic decay times of the time correlation function, as obtained from our data and the mean lifetime of hydrogen bond known in literature.

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Section: Methodsmentioning

confidence: 99%

The hydrogen-bond collective dynamics in liquid methanol

Bellissima

Panfilis

Bafile

et al. 2016

Sci Rep

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“…8 These approaches have been aimed at understanding the atomic level structure, including characteristics beyond pair correlations, and aggregation 7 of these materials.…”

Section: Introductionmentioning

confidence: 99%

Investigation of the Structure of Ethanol–Water Mixtures by Molecular Dynamics Simulation I: Analyses Concerning the Hydrogen-Bonded Pairs

Gereben

Pusztai

2015

J. Phys. Chem. B

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Series of molecular dynamics simulations for ethanol-water mixtures with 20-80 mol % ethanol content, pure ethanol, and water were performed. In each mixture, for ethanol the OPLS force field was used, combined with three different water force fields, the SPC/E, the TIP4P-2005, and the SWM4-DP. Water potential models were distinguished on the basis of deviations between calculated and measured total scattering X-ray structure factors aided by ethanol-water pair binding energy comparison. No single water force field could provide the best agreement with experimental data at all concentrations: at the ethanol content of 80% the SWM-DP, for 60 mol % the SWM4-DP and the TIP4P-2005, whereas for the 40 and 20 mol % mixtures TIP4P-2005 water force field provided the closest match. Coordination numbers and hydrogen bonds/molecule values were calculated, revealing that the oxygen-oxygen first coordination numbers strongly overestimate the average number of hydrogen bonds/molecule. The center-of-molecule distributions indicate that the ethanol-ethanol first coordination sphere expands with increasing water concentration while the size of the first water-water coordination sphere does not change. Various two and three-dimensional distributions were calculated that reveal the differences between simulations with different water force fields. Detailed conformational analyses of the hydrogen-bonded pairs were performed; drawings of the characteristic molecular arrangements are provided.

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“…3, 37 However, usually a careful preparation of the initial configuration is needed in order to be able to reproduce the experimental results; a preparation that if not properly done can be misleading in the case of complex molecules such as polyalcohols. 7 This problem of a strong dependence of the result on the initial choice of parameters is typical for fits with many parameters. In the case of reverse Monte Carlo, the number of degrees of freedom of the system is extremely high because the description of the data is done by molecular configurations.…”

Section: A Bayesian Fit Methodsmentioning

confidence: 99%

“…Both the decoupled 5 and the coupled 6 approaches have been applied in structural modeling applications. In more complex systems, such as alcohols, 7,8 the intramolecular structure has been proven to have an effect on the intermolecular structure at short and even intermediate distances. 9 The determination of the intramolecular structure in the liquid or the solid phases is not an easy task.…”

Section: Introductionmentioning

confidence: 99%

Interplay between intramolecular and intermolecular structures of 1,1,2,2-tetrachloro-1,2-difluoroethane

et al. 2011

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We report on the interplay between the short-range order of molecules in the liquid phase of 1,1,2,2-tetrachloro-1,2-difluoroethane and the possible molecular conformations, trans and gauche. Two complementary approaches have been used to get a comprehensive picture: analysis of neutron-diffraction data by a Bayesian fit algorithm and a molecular dynamics simulation. The results of both show that the population of trans and gauche conformers in the liquid state can only correspond to the gauche conformer being more stable than the trans conformer. Distinct conformer geometries induce distinct molecular short-range orders around them, suggesting that a deep intra-and intermolecular interaction coupling is energetically favoring one of the conformers by reducing the total molecular free energy.

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An approach towards understanding the structure of complex molecular systems: the case of lower aliphatic alcohols

Cited by 19 publications

References 41 publications

The hydrogen-bond collective dynamics in liquid methanol

The hydrogen-bond collective dynamics in liquid methanol

Investigation of the Structure of Ethanol–Water Mixtures by Molecular Dynamics Simulation I: Analyses Concerning the Hydrogen-Bonded Pairs

Interplay between intramolecular and intermolecular structures of 1,1,2,2-tetrachloro-1,2-difluoroethane

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