Molecular Dynamics in the Liquid Phase by FT-NMR, FT-IR and Laser Raman Lineshape Analysis

Chen, Fu-Tseng Andy

08 1900

Nuclear magnetic resonance (NMR) provides a convenient probe for the study of molecular reorientation in liquids because nuclear spin-lattice relaxation times are dependent upon the details of molecular motion. The combined application of Raman and Infrared (IR) lineshape analysis can furnish more complete information to characterize the anisotropic rotation of molecules. Presented here are the studies of NMR relaxation times, together with Raman/IR Mneshape analysis of the solvent and temperature dependence of rotational diffusion in 1,3,5-tribromobenzene and 1,3,5-trifluorobenzene. In these experiments, it was found that the rotational diffusion constants calculated from Perrin's stick model were two to three times smaller than the measured values of D, and D,,. Similarly, rotational diffusion constants predicted by the Hu-Zwanzig slip model were too large by a factor of 2. Application of the newer Hynes-Kapral-Weinberg model furnished rotational diffusion constants that were in reasonable agreement with the experimental results. The vibrational peak frequencies and relaxation times of the isotropic Raman spectra of the υ1 modes of CD2Br2 and CHBr3 were studied in solution. The frequency shifts in non-interactive solvents were explained well on the basis of solution variations in the dispersion energy. In Lewis bases, the displacements were in some, but not all, cases greater than predicted. On the other hand, it was found that the vibrational relaxation times of the C-H/C-D modes decreased dramatically in all Lewis base solvents. Therefore, it was concluded that relaxation times of the υ1 modes, rather than frequency shifts, furnish a more reliable measure of hydrogen bonding interactions of halomethanes in solution.

NMR relaxation times

molecular reorientations

rotation diffusion constants

IR lineshape analysis

nuclear magnetic resonance

liquids

Molecular dynamics.

Liquids -- Magnetic properties.

Benzene -- Molecular rotation.

Raman spectroscopy.

Estudo das relaxações estruturais alfa e beta em poli(metacrilatos de n-alquila) utilizando-se RMN / Study of the structural relaxation alpha and beta in poly(n-methyl-acrylates) using RMN

Tozoni, José Roberto

15 April 2005

O comportamento das formas de linha dos espectros de RMN estático em função da temperatura assim como os experimentos de PURE Exchange em uma dimensão (PUREX-1D) foram utilizados para elucidar detalhes da dinâmica molecular nos PnMA. Os experimentos PUREX-1D foram realizados na faixa de temperatura de Tg-145 o C a Tg. Nesta faixa de temperatura a dinâmica molecular dos PnMA acontece com tempos de correlação entre 500 micro e 10 milissegundos. Utilizando simulação espectral foi demonstrado que os espectros PUREX-1D dependem tanto do tempo de correlação quanto da geometria das reorientações moleculares. Este fato também foi usado para avaliar as características dos movimentos moleculares responsáveis pela reaxação estrutural beta nos PnMA. Foi observado que os pequenos ângulos de reorientação da cadeia principal associados com a relaxação estrutural beta aumentam com o aumento da temperatura e que os tempos de correlação do movimento podem apresentar uma larga distribuição. Análises das formas de linha obtidas através de experimentos de polarização cruzada (CP) em função da temperatura foram realizadas para se estudar o comportamento da dinâmica molecular responsável pela relaxações estruturais alfa e beta nos PnMA. Os experimentos CP foram realizados em uma faixa de temperaturas entre Tg-50 o C e Tg.+70 o C. Nesta faixa de temperatura as figuras de linha de RMN estática são altamente dependentes da temperatura, do tamanho e do volume do ramo lateral. A dinâmica molecular dos PnMA apresentou um movimento altamente anisotrópico sendo que a isotropização da conformação do espectro induzida pelos movimentos moleculares ocorreu apenas a temperaturas muito acima da Tg, contrariando o comportamento esperado para a maioria dos polímeros amorfos. / The behavior of the static NMR line shapes as a function of the temperature as well as one-dimensional Pure Exchange NMR experiments (PUREX-1D) were used to elucidate details of the molecular dynamics in PnMAs. The 1D-PUREX experiments were carried out in the temperature range of Tg-145 oC to Tg. In this range of temperature the molecular dynamics of PnMAs was found to occur with correlation times between 500m and 10ms. Using spectral simulations it was demonstrated that the 1D-PUREX spectra depend on both, the correlation time and geometry of the molecular reorientations. Hence this feature was used to evaluate the characteristics of the molecular motions responsible by the b structural relaxation of PnMAs. It was found that the small angles reorientation of main chain associated with the b-structural relaxation increases with the temperature and the correlation times present a possible broad distribution. Analysis of the NMR line shapes obtained in Cross Polarization (CP) experiments as a function of temperature was performed to study the behavior of the molecular dynamics responsible for the b and a structural relaxation. The CP experiments were performed in the temperature range of Tg-50 oC to Tg+70 oC. In this temperature range the static NMR line shapes are highly dependent on the temperature, size and bulk of the side-group. The dynamics of the PnMA presents a highly anisotropic motion and the isotropisation of conformation induced by the motion only occurs in temperatures well above Tg, contrary to the behavior of the most fragile amorphous polymers.

Correlation time

Dinâmica molecular

Distribuição de tempos de correlação

Geometry of the molecular reorientations

Molecular dynamics in PnMAs

Poli(metracrilatos de n-alquila)

Pure Exchange NMR experiments (PUREX-1D)

PUREX

Relaxação estrutural

Ressonância magnética nuclear

Static NMR line shapes

Temo de correlação

Estudo das relaxações estruturais alfa e beta em poli(metacrilatos de n-alquila) utilizando-se RMN / Study of the structural relaxation alpha and beta in poly(n-methyl-acrylates) using RMN

José Roberto Tozoni

15 April 2005

O comportamento das formas de linha dos espectros de RMN estático em função da temperatura assim como os experimentos de PURE Exchange em uma dimensão (PUREX-1D) foram utilizados para elucidar detalhes da dinâmica molecular nos PnMA. Os experimentos PUREX-1D foram realizados na faixa de temperatura de Tg-145 o C a Tg. Nesta faixa de temperatura a dinâmica molecular dos PnMA acontece com tempos de correlação entre 500 micro e 10 milissegundos. Utilizando simulação espectral foi demonstrado que os espectros PUREX-1D dependem tanto do tempo de correlação quanto da geometria das reorientações moleculares. Este fato também foi usado para avaliar as características dos movimentos moleculares responsáveis pela reaxação estrutural beta nos PnMA. Foi observado que os pequenos ângulos de reorientação da cadeia principal associados com a relaxação estrutural beta aumentam com o aumento da temperatura e que os tempos de correlação do movimento podem apresentar uma larga distribuição. Análises das formas de linha obtidas através de experimentos de polarização cruzada (CP) em função da temperatura foram realizadas para se estudar o comportamento da dinâmica molecular responsável pela relaxações estruturais alfa e beta nos PnMA. Os experimentos CP foram realizados em uma faixa de temperaturas entre Tg-50 o C e Tg.+70 o C. Nesta faixa de temperatura as figuras de linha de RMN estática são altamente dependentes da temperatura, do tamanho e do volume do ramo lateral. A dinâmica molecular dos PnMA apresentou um movimento altamente anisotrópico sendo que a isotropização da conformação do espectro induzida pelos movimentos moleculares ocorreu apenas a temperaturas muito acima da Tg, contrariando o comportamento esperado para a maioria dos polímeros amorfos. / The behavior of the static NMR line shapes as a function of the temperature as well as one-dimensional Pure Exchange NMR experiments (PUREX-1D) were used to elucidate details of the molecular dynamics in PnMAs. The 1D-PUREX experiments were carried out in the temperature range of Tg-145 oC to Tg. In this range of temperature the molecular dynamics of PnMAs was found to occur with correlation times between 500m and 10ms. Using spectral simulations it was demonstrated that the 1D-PUREX spectra depend on both, the correlation time and geometry of the molecular reorientations. Hence this feature was used to evaluate the characteristics of the molecular motions responsible by the b structural relaxation of PnMAs. It was found that the small angles reorientation of main chain associated with the b-structural relaxation increases with the temperature and the correlation times present a possible broad distribution. Analysis of the NMR line shapes obtained in Cross Polarization (CP) experiments as a function of temperature was performed to study the behavior of the molecular dynamics responsible for the b and a structural relaxation. The CP experiments were performed in the temperature range of Tg-50 oC to Tg+70 oC. In this temperature range the static NMR line shapes are highly dependent on the temperature, size and bulk of the side-group. The dynamics of the PnMA presents a highly anisotropic motion and the isotropisation of conformation induced by the motion only occurs in temperatures well above Tg, contrary to the behavior of the most fragile amorphous polymers.

Dinâmica molecular

Distribuição de tempos de correlação

Poli(metracrilatos de n-alquila)

PUREX

Relaxação estrutural

Ressonância magnética nuclear

Temo de correlação

Correlation time

Geometry of the molecular reorientations

Molecular dynamics in PnMAs

Pure Exchange NMR experiments (PUREX-1D)

Static NMR line shapes