Salah Nasr scite author profile

The microstructures of pure water and aqueous NaCl solutions over a wide range of salt concentrations (0-4 m) under ambient conditions are characterized by X-ray scattering and molecular dynamics (MD) simulations. MD simulations are performed with the rigid SPC water model as a solvent, while the ions are treated as charged Lennard-Jones particles. Simulated data show that the first peaks in the O...O and O...H pair correlation functions clearly decrease in height with increasing salt concentration. Simultaneously, the location of the second O...O peak, the signature of the so-called tetrahedral structure of water, gradually disappears. Consequently, the degree of hydrogen bonding in liquid water decreases when compared to pure fluid. MD results also show that the hydration number around the cation decreases as the salt concentration increases, which is most likely because some water molecules in the first hydration shell are occasionally substituted by chlorine. In addition, the fraction of contact ion pairs increases and that of solvent-separated ion pairs decreases. Experimental data are analyzed to deduce the structure factors and the pair correlation functions of each system. X-ray results clearly show a perturbation of the association structure of the solvent and highlight the appearance of new interactions between ions and water. A model of intermolecular arrangement via MD results is then proposed to describe the local order in each system, as deduced from X-ray scattering data.

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Local order in aqueous lithium chloride solutions as studied by X-ray scattering and molecular dynamics simulations

Bouazizi

Nasr

2007

Journal of Molecular Structure

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X-ray and neutron scattering studies of the temperature and pressure dependence of the structure of liquid formamide

Bellissent-Funel

Nasr

Bosio

1997

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A structural investigation of liquid formamide was performed by neutron scattering at pressures of up to 4 kbar. We have also deduced the molecular pair correlation functions from x-ray studies at ambient pressure and in the 263–326 K temperature range. The spectra obtained are consistent with the presence of hydrogen-bonded open chains of molecules in the liquid state. The effect of both pressure and temperature on the hydrogen-bond network is examined.

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X-ray scattering and density-functional theory calculations to study the presence of hydrogen-bonded clusters in liquid N-methylacetamide

Trabelsi

Bahri

Nasr

2004

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A structural investigation of liquid N-methylacetamide (NMA) is performed by x-ray scattering and density functional theory (DFT). Experimental data are analyzed to yield the total structure function SM(Q) and the pair correlation function g(r). The DFT calculations, using the standard triple zeta valence basis set augmented by a diffuse function for carbon, nitrogen and oxygen atoms, are performed on the one hand to study the structure and stability of the two possible conformers cis and trans. On the other hand, they are meant to examine some possible clusters which may describe the intermolecular arrangement in liquid NMA. Among two series of dimers and trimers associations, the spectra are particularly interpreted in terms of: Trans NMA dimers and trimers which resemble the short-range crystal structure, mixed cis and trans trimers and cis cyclic trimers. The H-bonding parameters and the intermolecular energy for each model are described.

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Short-range order in liquid N-methylformamide HCONHCH3, as studied by x-ray scattering and density functional theory calculations

Hammami

Bahri

Nasr

et al. 2003

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The local order in liquid N-methylformamide has been studied by using x-ray diffraction and a density functional theory (DFT). Experimental data were analyzed to yield the total structure function SM(q) and the intermolecular pair correlation function gL(r). DFT calculations, using, namely, the standard TZV basis set, were performed to study the relative stability of the two possible isomers (cis and trans) and to examine some possible intermolecular arrangements in the liquid state. X-ray measurements can be interpreted in term of cyclic trimers of cis form molecules where each monomer can establish two N–H⋯O hydrogen bonds that are described.

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H-bonding in liquid N-methylformamide as studied by X-ray scattering

Hammami

Nasr

Oumezzine

et al. 2002

Biomolecular Engineering

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X-ray and neutron scattering studies of liquid formic acid DCOOD at various temperatures and under pressure

Nasr

Bellissent-Funel

Cortès

1999

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A structural investigation of fully deuterated liquid formic acid was performed by neutron scattering at pressure up to 3 kbar. The molecular pair correlation function was also deduced from x-ray study of DCOOD at ambient pressure and at 294 K. The results could be explained in terms of an open-chain structure with only two H bonds per molecule. The mean O⋯O distance is about 2.72 Å. The effect of both temperature and pressure on the hydrogen bond network is examined.

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Neutron scattering experiments on aqueous sodium chloride solutions and heavy water. Comparison to molecular dynamics and X-ray results

Bouazizi

Hammami

Nasr

et al. 2008

Journal of Molecular Structure

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Salah Nasr

Local Order in Aqueous NaCl Solutions and Pure Water: X-ray Scattering and Molecular Dynamics Simulations Study

Local order in aqueous lithium chloride solutions as studied by X-ray scattering and molecular dynamics simulations

X-ray and neutron scattering studies of the temperature and pressure dependence of the structure of liquid formamide

X-ray scattering and density-functional theory calculations to study the presence of hydrogen-bonded clusters in liquid N-methylacetamide

Short-range order in liquid N-methylformamide HCONHCH3, as studied by x-ray scattering and density functional theory calculations

H-bonding in liquid N-methylformamide as studied by X-ray scattering

X-ray and neutron scattering studies of liquid formic acid DCOOD at various temperatures and under pressure

Neutron scattering experiments on aqueous sodium chloride solutions and heavy water. Comparison to molecular dynamics and X-ray results

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