Stefano Okretic scite author profile

This article is intended to review recent results of simultaneous mechanical and Fourier transform infrared spectroscopic—so-called rheo-optical—measurements for polymer deformation studies. The technique will also be discussed in terms of the application of Fourier transform near-infrared light-fiber and Raman spectroscopy. Specifically, data on the bidirectional drawing of poly(ethylene terephthalate) and the strain-induced conformational changes of poly(vinylidene fluoride) will be presented.

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Reorientation of Nematic Liquid-Crystals and Liquid-Crystalline Polymers in an Electric Field Studied by FT-IR Time-Resolved Spectroscopy and 2D-Correlation Analysis

Czarnecki

Okretic

Siesler

1997

J. Phys. Chem. B

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Fourier-transform infared (FT-IR) time-resolved spectroscopy was used to study the segmental mobility of two low molecular weight nematic liquid-crystals (p-cyanophenyl p-(n-hexyl)benzoate, 6CPB, p-cyanophenyl p-(n-heptyl)benzoate, 7CPB) and a nematic liquid crystalline polymer (poly[p-(n-hexyl)(p-(cyanophenyl)benzoate) acrylate], NLCP), which has a 6CPB unit in the side chain. Of particular interest was the comparison between the reorientation of free 6CPB and 6CPB integrated in the side chain of the polymer. The samples were studied under different experimental conditions of temperature, voltage, and prealignment. To accentuate and derive more useful information from the original time-resolved spectra, we applied 2D-correlation analysis. It has been shown that molecules of 6CPB and 7CPB reorient as rigid units. In the case of NLCP only the mesogen and a small part of the spacer, directly attached to the mesogen, participate in the reorientational movement; the rest of the spacer and the main chain do not move under the influence of the electric field. The temperature, in a narrow range, and the prealignment do not have a noticeable effect on the rate of reorientation of the nematic low molecular weight liquid-crystals, whereas increasing temperature and prealignment significantly shorten the relaxation times of the NLCP.

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Characterization of the electric-field-induced orientation and relaxation dynamics of liquid crystals by time-resolved step-scan Fourier transform infrared spectroscopy

Shilov

Okretic

Siesler

1995

Vibrational Spectroscopy

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Segmental Mobility of Liquid Crystals and Liquid Crystalline Polymers in an Electric Field: A Study by Time-Resolved Rapid-Scan and Step-Scan FTIR Spectroscopy

Shilov¹,

Okretic²,

Siesler³

et al. 1996

Applied Spectroscopy Reviews

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Ultraviolet/visible spectroscopy of molten slags and glasses (up to 1600°C)

Nowack

Okretic

Pfeifer

et al. 2001

Journal of Non-Crystalline Solids

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Stefano Okretic

Rheo-Optical Fourier Transform Infrared and Raman Spectroscopy of Polymers

Reorientation of Nematic Liquid-Crystals and Liquid-Crystalline Polymers in an Electric Field Studied by FT-IR Time-Resolved Spectroscopy and 2D-Correlation Analysis

Characterization of the electric-field-induced orientation and relaxation dynamics of liquid crystals by time-resolved step-scan Fourier transform infrared spectroscopy

Segmental Mobility of Liquid Crystals and Liquid Crystalline Polymers in an Electric Field: A Study by Time-Resolved Rapid-Scan and Step-Scan FTIR Spectroscopy

Ultraviolet/visible spectroscopy of molten slags and glasses (up to 1600°C)

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