2006
DOI: 10.1063/1.2403867
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Hydrogen bond and residence dynamics of ion–water and water–water pairs in supercritical aqueous ionic solutions: Dependence on ion size and density

Abstract: We have carried out a series of molecular dynamics simulations to investigate the hydrogen bond and residence dynamics of X(-)-water (X=F, Cl, and I) and pairs in aqueous solutions at a temperature of 673 K. The calculations are done at six different water densities ranging from 1.0 to 0.15 g cm(-3). The hydrogen bonds are defined by using a set of configurational criteria with respect to the anion(oxygen)-oxygen and anion(oxygen)-hydrogen distances and the anion(oxygen)-oxygen-hydrogen angle for an anion(wate… Show more

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Cited by 73 publications
(57 citation statements)
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“…The hydrogen bond distributions of the systems of figures 3 and 4 are shown in figures 5 and 6, respectively. We have used a geometric definition of the hydrogen bonds as was done in earlier studies (Luzar and Chandler 1996a, b;Chowdhury and Pettitt 2005a;Chowdhury and Chandra 2006;Mallik and Chandra 2006). We have, however, used only distance criteria and no angular cut-off was used.…”
Section: Resultsmentioning
confidence: 98%
“…The hydrogen bond distributions of the systems of figures 3 and 4 are shown in figures 5 and 6, respectively. We have used a geometric definition of the hydrogen bonds as was done in earlier studies (Luzar and Chandler 1996a, b;Chowdhury and Pettitt 2005a;Chowdhury and Chandra 2006;Mallik and Chandra 2006). We have, however, used only distance criteria and no angular cut-off was used.…”
Section: Resultsmentioning
confidence: 98%
“…According to literature, the average HB dynamics for pairs i , j of hydrogen bonded molecules could be described using the following time correlation function ͑tcf͒: [46][47][48][49][50][51][52] …”
Section: A Hb and Single Reorientational Dynamicsmentioning
confidence: 99%
“…Following previous work [39][40][41][42][43][44][45][46][47][48][49], in order to calculate the dynamics of these hydrogen bond fluctuations, we define two hydrogen bond population variables, h(t) and H(t), where h(t) is unity when a particular acetone-chloroform pair is hydrogen bonded at time t according to the adopted definition and zero otherwise and H(t) = 1 if the acetone-chloroform pair remains continuously hydrogen bonded from t = 0 to time t and it is zero otherwise. To study the breaking dynamics of hydrogen bonds, we calculate the continuous hydrogen bond time correlation function [39][40][41][42][43][44][45][46][47][48][49] S HB (t) = hh(0)H(t)i/hh(0) 2 i which describes the probability that an initially bonded acetone-chloroform pair remains bonded at all times up to t. The associated integrated relaxation time s C HB can be interpreted as the average lifetime of a hydrogen bond between an acetone and a chloroform molecule.…”
Section: Dynamics Of Acetone-chloroform Pairs: Hydrogen Bond Relaxationmentioning
confidence: 97%
“…In this work, we have calculated hydrogen bond relaxation times for both cut-offs. We have used an angular cut-off of 45°for acetone-chloroform hydrogen bond similar to our previous work on hydrogen bonds in aqueous solutions and mixed solvents [42,[45][46][47][48].…”
Section: Dynamics Of Acetone-chloroform Pairs: Hydrogen Bond Relaxationmentioning
confidence: 99%
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