Ion and polymer dynamics in polymer electrolytes PPO-LiClO4. I. Insights from NMR line-shape analysis

Vogel, Michael; Torbrügge, T.

doi:10.1063/1.2217945

Cited by 22 publications

(25 citation statements)

References 55 publications

(193 reference statements)

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“…2 H SLR is, however, different for deuterons in the methyl groups. These results are consistent with findings in experimental work on perdeuterated PPO [33][34][35]. There, it was reported that 2 H SLR occurs in two steps, which are related to deuterons in the methyl groups and the polymer backbone.…”

Section: Conventional Spin-lattice Relaxation Analysissupporting

confidence: 94%

Interpretation of 1H and 2H spin–lattice relaxation dispersions: Insights from molecular dynamics simulations of polymer melts

Henritzi

Bormuth

Vogel

2013

Solid State Nuclear Magnetic Resonance

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Section: Conventional Spin-lattice Relaxation Analysissupporting

confidence: 94%

Interpretation of 1H and 2H spin–lattice relaxation dispersions: Insights from molecular dynamics simulations of polymer melts

Henritzi

Bormuth

Vogel

2013

Solid State Nuclear Magnetic Resonance

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“…Since these conditions are not necessarily met for ion dynamics in all polymer electrolytes, it is an open question whether this approach can be applied to other materials. Although the motional narrowing of the 7 Li central line was often used for a study of lithium ionic motion in polymer electrolytes, it was also emphasized that a straightforward interpretation of the experimental results is in general not possible [429,438], see also Section 3.4.2.3. Specifically, it is necessary to consider the fact that the main contribution to the width of the central line results from 7 Li-1 H dipolar couplings.…”

Section: Motional Narrowingmentioning

confidence: 98%

“…By contrast polypropylene oxide (PPO), -[CH 2 CHCH 3 O] n -, is purely amorphous [402,80,[425][426][427][428][429]. To reduce the tendency of PEO towards crystallization, it is possible to crosslink the polymer chains or to synthesize copolymers [420,421,[430][431][432].…”

Section: Fast Ion Motion In Flexible Matricesmentioning

confidence: 99%

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Solid-state Li NMR with applications to the translational dynamics in ion conductors

Böhmer

Jeffrey

Vogel

2007

Progress in Nuclear Magnetic Resonance Spectroscopy

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220

232

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“…The former setup is described in Ref. [20]. In the latter setup, a home-built probe was placed in a Konti CryoVac cryostat operating with liquid nitrogen and controlled by a TIC 304 MA CryoVac temperature controller.…”

Section: A Materials and Experimentsmentioning

confidence: 99%

2H and 13C NMR studies on the temperature-dependent water and protein dynamics in hydrated elastin, myoglobin and collagen

Lusceac

Vogel

Herbers

2010

Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics

118

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2 H NMR spin-lattice relaxation and line-shape analyses are performed to study the temperaturedependent dynamics of water in the hydration shells of myoglobin, elastin, and collagen. The results show that the dynamical behaviors of the hydration waters are similar for these proteins when using comparable hydration levels of h = 0.25 − 0.43. Since water dynamics is characterized by strongly nonexponential correlation functions, we use a Cole-Cole spectral density for spin-lattice relaxation analysis, leading to correlation times, which are in nice agreement with results for the main dielectric relaxation process observed for various proteins in the literature. The temperature dependence can roughly be described by an Arrhenius law, with the possibility of a weak crossover in the vicinity of 220 K. Near ambient temperatures, the results substantially depend on the exact shape of the spectral density so that deviations from an Arrhenius behavior cannot be excluded in the hightemperature regime. However, for the studied proteins, the data give no evidence for the existence of a sharp fragile-to-strong transition reported for lysozyme at about 220 K. Line-shape analysis reveals that the mechanism for the rotational motion of hydration waters changes in the vicinity of 220 K. For myoglobin, we observe an isotropic motion at high temperatures and an anisotropic largeamplitude motion at low temperatures. Both mechanisms coexist in the vicinity of 220 K.13 C CP MAS spectra show that hydration results in enhanced elastin dynamics at ambient temperatures, where the enhancement varies among different amino acids. Upon cooling, the enhanced mobility decreases. Comparison of 2 H and 13 C NMR data reveals that the observed protein dynamics is slower than the water dynamics.

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Ion and polymer dynamics in polymer electrolytes PPO-LiClO4. I. Insights from NMR line-shape analysis

Cited by 22 publications

References 55 publications

Interpretation of 1H and 2H spin–lattice relaxation dispersions: Insights from molecular dynamics simulations of polymer melts

Interpretation of 1H and 2H spin–lattice relaxation dispersions: Insights from molecular dynamics simulations of polymer melts

Solid-state Li NMR with applications to the translational dynamics in ion conductors

2H and 13C NMR studies on the temperature-dependent water and protein dynamics in hydrated elastin, myoglobin and collagen

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