Intermolecular nuclear relaxation and molecular pair distribution in liquid mixtures

Göller, R.; Hertz, H. G.; Tutsch, R.

doi:10.1351/pac197232010149

Cited by 38 publications

(8 citation statements)

References 7 publications

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“…Considering the composition of the system (II) we obtain the result that the OH... HO relaxation should be to 70% of intermolecular nature which we treat here as being of pseudointramolecular character. So again we obtain the result which has been found already several times [7,9,21] that the interaction strength obtained experimentally with the intermolecular or pseudo-intramolecular relaxation rates is markedly closer to the value predicted by geometry than in the intramolecular case. However, if we are considering the OH relaxation rate as being caused entirely by the water intramolecular relaxation, then we would have to use the proton-proton distance of 1.52 A and the aA coefficient would also go down to a value of 0.24.…”

Section: Discussionsupporting

confidence: 86%

Group-Structure of Rotational Correlation Functiong₂(t) of Flexible Molecule (EtOH) Produced by Addition of Strongly Interacting Components

Ansari¹,

Hertz²

1985

Zeitschrift Für Physikalische Chemie

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Internal motion in molecules / Electrolyte in mixed solvent / Nuclear magnetic relaxation rates Proton magnetic relaxation rates of the isotopically labelled ethanols CH3CD2OD, CD3CH2OD and CD3CD2OH in mixtures with LiCl and water of two different compositions have been measured as a function of the temperature and the nuclear magnetic resonance frequency (v= 90, 60, 30, 15 MHz, v = 6 MHz in one case). The long time part of the rotational correlation function g2 (t) is represented as a linear combination of two exponentials. The respective coefficients and time constants are determined from the total amount of measured data. Under certain conditions the two term expression of g2 (r) degenerates to a simple exponential. Some CD3 deuteron magnetic relaxation results at v= 12 MHz are also reported.Protonen-magnetische Relaxationsraten der isotopisch gekennzeichneten Ethanole CH3CD2OD, CD3CH2OD und CD3CD2OH wurden in zwei verschiedenen Mischungen der Alkohole mit LiCl und Wasser als Funktion der Temperatur und der kernmagnetischen Resonanzfrequenz gemessen (v = 90, 60, 30, 15 MHz, v = 6 MHz in einem Falle). Der Langzeitteil der rotatorischen Korrelationsfunktion g2 (?) wird als eine Linearkombination zweier Exponentialfunktionen dargestellt. Die diesbezuglichen Koeffizienten und Zeitkonstanten wurden unter Verwendung der Gesamtmenge der gemessenen Daten bestimmt. Unter gewissen Bedingungen degenerieren die Zwei-Term-Ausdriicke zu einer einfachen Exponentialfunktion. Einige Ergebnisse iiber CD3-Deuteronen-magnetische Relaxationsraten bei v = 12 MHz werden gleichfalls wiedergegeben.

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Section: Discussionsupporting

confidence: 86%

Group-Structure of Rotational Correlation Functiong₂(t) of Flexible Molecule (EtOH) Produced by Addition of Strongly Interacting Components

Ansari¹,

Hertz²

1985

Zeitschrift Für Physikalische Chemie

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“…By the oxygen-17 substitution method we were able to separate intramolecular and intermolecular relaxation rates, and then using the former we calculated the reorientational correlation times T°h of the OH bond in liquid methanol, which were in good agreement with those obtained from computer simulations [12,13]. In the past there existed two difficulties in obtaining the correct reorientational correlation time r°H as in the case of proton relaxation in CD3OH [14] the reorientational vector is not strictly defined, and in the case of deuteron relaxation in CH 3 OD [4,15,16] the quadrupole coupling constant is not known. The quadrupole coupling constants of D and 17 0 in the liquid are though expected to be intermediate between the ice and gas values, but their exact values so far were unknown.…”

Section: Introductionsupporting

confidence: 60%

Molecular Reorientation of Methanol in Mixtures with Carbon Tetrachloride

Gill

Zeidler

1992

Zeitschrift Für Naturforschung A

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Proton and oxygen-17 nmr relaxation rates of CD 3 17 OH as well as deuteron nmr relaxation rates of CH 3 OD were measured in mixtures with carbon tetrachloride at different compositions and temperatures. By varying the 17 0-content different contributions to the proton relaxation rate could be separated and from the 17 0-H dipolar interaction contribution the correlation time of the OH bond was determined. Using these correlation times the composition dependence of the deuterium and oxygen-17 quadrupole coupling constants of methanol was derived. A strong variation of the coupling constants over the measured composition range is evident.

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“…Thus, if the coefficients wj in Eq. (1) The path we are following up in the present paper is different from the conventional one. We wish primarily to answer the following two questions: (i) Is the effective correlation time expressable as a sum of terms as given in Eq.…”

Section: Introductionmentioning

confidence: 96%

“…reff is a weighted sum of a number of time constants Tj, Tet( = T Wf, (1) where the t/s characterize the rotation of the group about the respective intramolecular axis and the diffusive motion of the whole molecule about different axes fixed in the molecular frame. Now in a liquid like ethanol at room temperature the time constants xi as derived from the experimental results have very small values, i.e.…”

Section: Introductionmentioning

confidence: 99%

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Internal Motion in Liquid Ethanol and some Other Alcohols, Separation of Contributions by Added Glycerol

Hertz¹,

Wild²,

Weingärtner³

1984

Zeitschrift Für Physikalische Chemie

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Liquids I Internal rotation I Nuclear magnetic relaxation 'H nuclear magnetic relaxation rates of CH3CD2OD and CD3CH2OD in various mixtures with glycerol-d8 in the temperature range 120< T<300K have been measured. Whereas the log(1/rl)(l/D curve for pure ethanol shows only the simple "elementary form" with one maximum, in agreement with Versmold's observation on the deuteron relaxation the addition of glycerol produces shoulders or second maxima. For comparison i-propanol (CH3)2CDOD and CH3OD were also studied in their mixtures with glycerol-d8. In the former case a shoulder appeared on the log(l/7",)(l/7*) curve, in the latter case no particularities showed up. It turned out that the weight factors derived from these observations could not be correlated with conventional molecular geometry in a satisfactory way. Die kernmagnetischen 'H-Relaxationsraten von CH3CD2OD und CD3CH2OD in verschiedenen Gemischen mit Glycerin-d8 wurden in einem Temperaturbereich von 120 bis 300 K gemessen. Wahrend die log(l/T1)(l/T)-Kurve fur reincs Athanol nur die einfache ..Elementarform" mit einem Maximum zeigt, bewirkt in Ubereinstimmung mit Versmolds Befunden an der Deuteronenrelaxation die Beimischung von Glycerin das Auftreten von Schultern oder zweiten Maxima. Zum Vergleich wurden auch i-Propanol (CH3)2CDOD und CH3OD in ihren Gemischen mit Glycerin-d8 untersucht. Im ersteren Falle erschien gleichfalls eine Schulter an der log(1/7,1)(l/r)-Kurve, im letzteren Falle traten keine Besonderheiten auf. Eszeigtesich, daBdie Gewichtsfaktoren, die aus diesen Messungen erhalten wurden, sich nicht in befriedigender Weise mit den Parametern der iiblich anerkannten Molekiilgeometrie verkniipfen lassen.

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Intermolecular nuclear relaxation and molecular pair distribution in liquid mixtures

Cited by 38 publications

References 7 publications

Group-Structure of Rotational Correlation Functiong₂(t) of Flexible Molecule (EtOH) Produced by Addition of Strongly Interacting Components

Group-Structure of Rotational Correlation Functiong₂(t) of Flexible Molecule (EtOH) Produced by Addition of Strongly Interacting Components

Molecular Reorientation of Methanol in Mixtures with Carbon Tetrachloride

Internal Motion in Liquid Ethanol and some Other Alcohols, Separation of Contributions by Added Glycerol

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Intermolecular nuclear relaxation and molecular pair distribution in liquid mixtures

Cited by 38 publications

References 7 publications

Group-Structure of Rotational Correlation Functiong2(t) of Flexible Molecule (EtOH) Produced by Addition of Strongly Interacting Components

Group-Structure of Rotational Correlation Functiong2(t) of Flexible Molecule (EtOH) Produced by Addition of Strongly Interacting Components

Molecular Reorientation of Methanol in Mixtures with Carbon Tetrachloride

Internal Motion in Liquid Ethanol and some Other Alcohols, Separation of Contributions by Added Glycerol

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Product

Resources

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Group-Structure of Rotational Correlation Functiong₂(t) of Flexible Molecule (EtOH) Produced by Addition of Strongly Interacting Components

Group-Structure of Rotational Correlation Functiong₂(t) of Flexible Molecule (EtOH) Produced by Addition of Strongly Interacting Components