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Literature DB >> 21166402

Probing intermolecular interaction through thermal-lens spectroscopy.

Indrajit Bhattacharyya¹, Pardeep Kumar, Debabrata Goswami.

Abstract

Binary liquid mixtures are studied using femtosecond pump-probe thermal-lens (TL) spectroscopy. Changes in the measured TL signals as a function of relative concentration of binary mixtures show that these result from a combined effect of physical and molecular properties of the constituent binary liquids. The experimental TL values deviate from the ones calculated from phenomenological equations. These, we argue, are due to an underestimation of the influence of molecular interactions when the TL signals are calculated by using physical parameters only.

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Year: 2010 PMID： 21166402 PMCID： PMC3684775 DOI： 10.1021/jp1062429

Source DB: PubMed Journal: J Phys Chem B ISSN： 1520-5207 Impact factor: 2.991

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References

7 in total

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Journal: Opt Lett Date: 2008-07-01 Impact factor: 3.776

Probing intermolecular interaction through thermal-lens spectroscopy.

1. Investigation of the thermal lens effect in water-ethanol mixtures: composition dependence of the refractive index gradient, the enhancement factor and the Soret effect.

2. Thermal lens spectroscopy in liquid argon solutions: (Deltav = 6) C-H vibrational overtone absorption of methane.

3. Thermal lens measurement of the Soret coefficient in acetone/water mixtures.

4. Top-hat cw-laser-induced time-resolved mode-mismatched thermal lens spectroscopy for quantitative analysis of low-absorption materials.

5. High-sensitivity, single-beam n(2) measurements.

6. New thermooptical measurement method and a comparison with other methods.

7. Molecular structure-property correlations from optical nonlinearity and thermal-relaxation dynamics.