Your search keyword '"RICHTER D"' showing total 37 results

1. A practical method to account for random phase approximation effects on the dynamic scattering of multi-component polymer systems.

Author

Monkenbusch, M., Kruteva, M., Zamponi, M., Willner, L., Hoffman, I., Farago, B., and Richter, D.

Subjects

ACCOUNTING methods, POLYMERS, POLYMER melting, FACTOR structure, NEUTRONS

Abstract

Investigations of polymer systems that rely on the interpretation of dynamical scattering results as, e.g., the structure factor S(Q, t) of single chains or chain sections may require the inclusion of effects, as described within the framework of the random phase approximation (RPA) for polymers. To do this in practice for the dynamic part of S(Q, t) beyond the initial slope is a challenge. Here, we present a method (and software) that allows a straightforward assessment of dynamical RPA effects and inclusion of these in the process/procedures of model fitting. Examples of applications to the interpretation of neutron spin-echo data multi-component polymer melts are shown. [ABSTRACT FROM AUTHOR]

Published

2020

2. Polymer dynamics under cylindrical confinement featuring a locally repulsive surface: A quasielastic neutron scattering study.

Author

Krutyeva, M., Pasini, S., Monkenbusch, M., Allgaier, J., Maiz, J., Mijangos, C., Hartmann-Azanza, B., Steinhart, M., Jalarvo, N., and Richter, D.

Subjects

POLYMERS, NEUTRON scattering, POTENTIAL scattering, HYDROPHILIC interactions, MOLECULAR interactions

Abstract

We investigated the effect of intermediate cylindrical confinement with locally repulsive walls on the segmental and entanglement dynamics of a polymer melt by quasielastic neutron scattering. As a reference, the corresponding polymer melt was measured under identical conditions. The locally repulsive confinement was realized by hydrophilic anodic alumina nanopores with a diameter of 20 nm. The end-to-end distance of the hydrophobic infiltrated polyethylene-alt-propylene was close to this diameter. In the case of hard wall repulsion with negligible local attraction, several simulations predicted an acceleration of segmental dynamics close to the wall. Other than in attractive or neutral systems, where the segmental dynamics is slowed down, we found that the segmental dynamics in the nanopores is identical to the local mobility in the bulk. Even under very careful scrutiny, we could not find any acceleration of the surface-near segmental motion. On the larger time scale, the neutron spin-echo experiment showed that the Rouse relaxation was not altered by confinement effects. Also the entanglement dynamics was not affected. Thus at moderate confinement conditions, facilitated by locally repulsive walls, the dynamics remains as in the bulk melt, a result that is not so clear from simulations. [ABSTRACT FROM AUTHOR]

Published

2017

3. Fast internal dynamics in alcohol dehydrogenase.

Author

Monkenbusch, M., Stadler, A., Biehl, R., Ollivier, J., Zamponi, M., and Richter, D.

Subjects

ALCOHOL dehydrogenase, NEUTRON spectroscopy, TIME-of-flight spectroscopy, BACKSCATTERING, INCOHERENT scattering, DIFFUSION coefficients

Abstract

Large-scale domain motions in alcohol dehydrogenase (ADH) have been observed previously by neutron spin-echo spectroscopy (NSE). We have extended the investigation on the dynamics of ADH in solution by using high-resolution neutron time-of-flight (TOF) and neutron backscattering (BS) spectroscopy in the incoherent scattering range. The observed hydrogen dynamics were interpreted in terms of three mobility classes, which allowed a simultaneous description of the measured TOF and BS spectra. In addition to the slow global protein diffusion and domain motions observed by NSE, a fast internal process could be identified. Around one third of the protons in ADH participate in the fast localized diffusive motion. The diffusion coefficient of the fast internal motions is around two third of the value of the surrounding D2O solvent. It is tempting to associate the fast internal process with solvent exposed amino acid residues with dangling side chains. [ABSTRACT FROM AUTHOR]

Published

2015

4. Study of the dynamics of poly(ethylene oxide) by combining molecular dynamic simulations and neutron scattering experiments.

Author

Brodeck, M., Alvarez, F., Arbe, A., Juranyi, F., Unruh, T., Holderer, O., Colmenero, J., and Richter, D.

Subjects

ETHYLENE oxide, METHYL methacrylate, POLYELECTROLYTES, MOLECULAR dynamics, NEUTRON scattering

Abstract

We performed quasielastic neutron scattering experiments and atomistic molecular dynamics simulations on a poly(ethylene oxide) (PEO) homopolymer system above the melting point. The excellent agreement found between both sets of data, together with a successful comparison with literature diffraction results, validates the condensed-phase optimized molecular potentials for atomistic simulation studies (COMPASS) force field used to produce our dynamic runs and gives support to their further analysis. This provided direct information on magnitudes which are not accessible from experiments such as the radial probability distribution functions of specific atoms at different times and their moments. The results of our simulations on the H-motions and different experiments indicate that in the high-temperature range investigated the dynamics is Rouse-like for Q-values below ≈0.6 Å-1. We then addressed the single chain dynamic structure factor with the simulations. A mode analysis, not possible directly experimentally, reveals the limits of applicability of the Rouse model to PEO. We discuss the possible origins for the observed deviations. [ABSTRACT FROM AUTHOR]

Published

2009

5. Atomic motions in the αβ-merging region of 1,4-polybutadiene: A molecular dynamics simulation study.

Author

Narros, A., Arbe, A., Alvarez, F., Colmenero, J., and Richter, D.

Subjects

POLYBUTADIENE, MOLECULAR dynamics, RELAXATION phenomena, NEUTRON scattering, MICROSTRUCTURE

Abstract

We present fully atomistic molecular dynamics simulations on 1,4-polybutadiene in a wide temperature range from 200 to 280 K, i.e., in the region where the α- and β-relaxations merge and above. A big computational effort has been performed—especially for the lowest temperatures investigated—to extend the simulation runs to very long times (up to 1 μs for 200 K). The simulated sample has been carefully validated by using previous neutron scattering data on the real sample with similar microstructure. Inspecting the trajectories of the different hydrogens in real space, we have observed a heterogeneous dynamical behavior (each kind of hydrogen moves in a different way) with signatures of combined hopping and diffusive motions in the whole range investigated. The application of a previously proposed model [Colmenero et al., Europhys. Lett. 71, 262 (2005)] is successful and a characterization of the local motions and diffusion is possible. The comparison of our results to those reported in the literature provides a consistent scenario for polybutadiene dynamics and puts into a context the different experimental observations. We also discuss the impact of the hopping processes on the observation and interpretation of experimentally accessible magnitudes and the origin of the deviations from Gaussian behavior in this system. [ABSTRACT FROM AUTHOR]

Published

2008

6. Neutron scattering investigation of a diluted blend of poly(ethylene oxide) in polyethersulfone.

Author

Genix, A.-C., Arbe, A., Arrese-Igor, S., Colmenero, J., Richter, D., Frick, B., and Deen, P. P.

Subjects

NEUTRON diffraction, POLYMERS, SCATTERING (Physics), DYNAMICS, ASYMMETRY (Chemistry)

Abstract

By using quasielastic neutron scattering (QENS) with isotopiclabeling we have investigated the component dynamics in a miscible blend of polyethersulfone (PES) and poly(ethylene oxide) (PEO) with 75% content in weight of PES. Due to the large difference in the glass-transition temperatures, Tg’s, of the two polymers (TgPEO≈220 K, TgPES≈382 K) the dynamic asymmetry in the system dramatically increases when approaching the average Tg of the blend, ≤Tgblend≥. For the fast (PEO) component, this leads to a behavior which hints a crossover from typical glass-forming liquidlike dynamics at high temperatures to confined dynamics close to ≤Tgblend≥ induced by the freezing of the segmental motions of the slow PES. The features of the confined PEO motion observed by QENS are similar to those of the secondary γ-relaxation detected for pure (semicrystalline) PEO. A neutron diffraction study of the short-range order of the homopolymers and the blend suggests that this coincidence could be due to similarities in the intermolecular packing of PEO and PES polymers. [ABSTRACT FROM AUTHOR]

Published

2008

7. A microscopic look at the reinforcement of silica-filled rubbers.

Author

Botti, A., Pyckhout-Hintzen, W., Richter, D., Urban, V., and Straube, E.

Subjects

MICROSCOPY, RUBBER chemistry, SILICON compounds, ELASTOMERS, X-ray scattering, NEUTRONS spectra

Abstract

The deformed structure of silica-filled elastomers under uniaxial strain has been investigated using a combination of both small angle x-ray scattering and small angle neutron scattering methods. Using an extraction procedure and taking into account the two-phase nature of these polymer-based composites, the single chain scattering behavior as well as filler properties could be obtained uniquely on identical samples. For the first time the deformation of the rubbery matrix on the length scale of the network chain in a filled rubber could be determined and therewith the importance of matrix overstrain for the mechanical properties was estimated. Additionally, the determination of filler deformation and filler destruction presents microscopic details of the mechanisms of filler networking and the stress-softening Mullins effect. [ABSTRACT FROM AUTHOR]

Published

2006

8. Dynamics of deuterated polystyrene-protonated butadiene diblock copolymer micelles by neutron spin echo.

Author

Kanaya, T., Monkenbusch, M., Watanabe, H., Nagao, M., and Richter, D.

Subjects

NEUTRONS, PARTICLES (Nuclear physics), STYRENE, SCATTERING (Physics), APPROXIMATION theory, BOOTSTRAP theory (Nuclear physics)

Abstract

We report on neutron spin-echo (NSE) measurements on deuterated styrene-protonated butadiene diblock copolymer micelles in deuterated n-decane to investigate the dynamics of butadiene blocks in the corona. Before the NSE measurements, we performed small-angle neutron-scattering (SANS) measurements on the micelles to evaluate the structure to give a basis for the discussion of the dynamics. In the SANS study, we have estimated the form factor P(Q) in terms of a hard-core-shell model from the direct evaluation without curve-fitting procedure while a more flexible core-shell model with the structure factor S(Q) gives a better fit to the observed data. The observed normalized intermediate scattering function I(Q,t)/I(Q,0) by NSE does not show the collective motions corresponding to the so-called breathing mode but rather single chain motion (Zimm modes) for both the 2 and 20 wt % micelle solutions. The Zimm decay rate Γz in the micelle solution is slow compared with that in the homopolymer solution. This slowing down is assigned to the effective high concentration in the corona. The differences in Γz between concentrated solutions and the 20% micellar solution are attributed to end-tethering effect of the corona chains on the core surface. The possible reasons why the breathing mode was not observed in the present micelle system are discussed on the basis of chain density in the corona. [ABSTRACT FROM AUTHOR]

Published

2005

9. An in situ study of the t-butyllithium initiated polymerization of butadiene in d-heptane via small angle neutron scattering and 1H-NMR.

Author

Niu, A. Z., Stellbrink, J., Allgaier, J., Willner, L., Radulescu, A., Richter, D., Koenig, B. W., May, R. P., and Fetters, L. J.

Subjects

LITHIUM, SCATTERING (Physics), POLYMERIZATION, BUTADIENE, HEPTANE, PARTICLES (Nuclear physics)

Abstract

We present a combined 1H-NMR and small angle neutron scattering in situ study of the anionic polymerization of butadiene using t-butyllithium as the initiator. Both initiation and propagation phases were explored. This combined approach allows the structural and kinetic characteristics to be accessed and cross compared. The use of the D22 instrument (ILL Grenoble) permits the attainment of Q≈2×10-3 Å. This, in turn, led to the identification of coexisting large-scale and smaller aggregates during all stages of the polymerization. The smaller aggregates contain most of the reacted monomers. Their structure changes from high functionality wormlike chains at early stages of the reaction to starlike aggregates where the crossover occurs at a degree of polymerization of ≈40. The initiation event involved these small, high functionality (≈120) aggregates that apparently consisted of cross-associated t-butyllithium with the newly formed allylic-lithium head groups. As the initiation event progressed the initiation rate increased while the functionality of these small aggregates decreased and their size increased. Propagation, in the absence of initiation, was found to have a rate constant that was molecular weight dependent. At ∼11 kg/mol the measured polymerization rate was found to increase while no further structural changes were seen. [ABSTRACT FROM AUTHOR]

Published

2005

10. Hydrogen motions in the α-relaxation regime of poly(vinyl ethylene): A molecular dynamics simulation and neutron scattering study.

Author

Narros, A., Alvarez, F., Arbe, A., Colmenero, J., Richter, D., and Farago, B.

Subjects

MOLECULAR dynamics, DYNAMICS, NEUTRON spin echoes, NEUTRON resonance, GAUSSIAN processes, STOCHASTIC processes, PARTICLES (Nuclear physics)

Abstract

The hydrogen motion in poly(vinyl ethylene) (1,2-polybutadiene) in the α-relaxation regime has been studied by combining neutron spin echo (NSE) measurements on a fully protonated sample and fully atomistic molecular dynamics simulations. The almost perfect agreement between experiment and simulation results validates the simulated cell. A crossover from Gaussian to non-Gaussian behavior is observed for the intermediate scattering function obtained from both NSE measurements and simulations. This crossover takes place at unusually low Q values, well below the first maximum of the static structure factor. Such anomalous deviation from Gaussian behavior can be explained by the intrinsic dynamic heterogeneity arising from the differences in the dynamics of the different protons in this system. Side group hydrogens show a markedly higher mobility than main chain protons. Taking advantage of the simulations we have investigated the dynamic features of all different types of hydrogens in the sample. Considering each kind of proton in an isolated way, deviations from Gaussian behavior are also found. These can be rationalized in the framework of a simple picture based on the existence of a distribution of discrete jumps underlying the atomic motions in the α process. © 2004 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2004

11. Heterogeneous structure of poly(vinyl chloride) as the origin of anomalous dynamical behavior.

Author

Arbe, A., Moral, A., Alegrı´a, A., Colmenero, J., Pyckhout-Hintzen, W., Richter, D., Farago, B., and Frick, B.

Subjects

POLYVINYL chloride, THERMODYNAMICS, SMALL-angle scattering

Abstract

We have investigated the thermal evolution of the structure and the dynamics of poly(vinyl chloride) (PVC) in a wide temperature range. Corroborating earlier findings, small angle neutron scattering revealed the presence of structural heterogeneities. On the other hand, the single chain form factor corresponds to that of Gaussian chains. Gradually with increasing temperature the system becomes homogeneous. A simple description of the heterogeneities in terms of microcrystallites is forwarded. The dynamical behavior of PVC has been investigated combining broadband dielectric spectroscopy (DS) with coherent and incoherent neutron scattering. In a wide temperature range broadband DS facilitated a precise determination of the dynamic response related to the segmental relaxation. Close to the glass transition temperature the line shape strongly deviates from the usual Kohlrausch-Williams-Watts functional form of common glassforming systems. Moreover, the characteristic relaxation time observed by incoherent scattering displays an anomalous dependence on momentum transfer indicating the possible existence of heterogeneities in the sample. Based on the structural and dynamical results, a model is proposed, that considers the coexistence of regions with different dynamical properties leading to a distribution of characteristic relaxation times. The model accounts for the experimental observations, assuming for all regions the same functional form for the α-relaxation. It may be univocally determined from the coherent scattering data at the first static structure peak. The distribution of relaxation times found is compatible with the distribution of only one variable, the glass transition temperature. [ABSTRACT FROM AUTHOR]

Published

2002

12. Dynamics of bicontinuous microemulsion phases with and without amphiphilic block-copolymers.

Author

Mihailescu, M., Monkenbusch, M., Endo, H., Allgaier, J., Gompper, G., Stellbrink, J., Richter, D., Jakobs, B., Sottmann, T., and Farago, B.

Subjects

DYNAMICS, COPOLYMERS, SURFACE active agents

Abstract

Neutron Spin Echo and Dynamic Light Scattering techniques are used for an extensive investigation of the bicontinuous phase in water/decane microemulsions. The dynamical behavior of different surfactant systems, decyl polyglycol ether (C[sub 10]E[sub 4]), C[sub 10]E[sub 4] mixed with polyethylenepropylene/polyethyleneoxide amphiphilic block-copolymers-(PEP[sub x]/PEO[sub y]), and sodium-bisethylhexylsulfosuccinate (AOT) is investigated under comparable conditions. At scattering wave numbers q large compared to the inverse of the structure length scale, q[sub 0]=2π/d, always stretched exponential relaxations ∝e[sup -(Γ[sub q]t)[sup β]] with Γ[sub q]∝q[sup 3] are found, as predicted theoretically. The relaxation rate increases almost linearly as function of the bicontinuous structure correlation scale—ξ=d/2. The apparent bare bending modulus κ determined by fitting theoretical predictions to the experimental high-q data yields values of about 1.3k[sub B]T—as inferred from previous small angle neutron scattering (SANS) studies and from other methods. The effect of increasing rigidity of the surfactant layers by anchoring amphiphilic block-copolymers, predicted theoretically and revealed experimentally in structural investigations, could not be clearly resolved due to its small influence on the dynamics. At structural length scales, the relaxation rate in water–oil contrast shows a minimum corresponding to the maximum of the static structure factor. At length scales much larger than the typical structure length the relaxation is single-exponential with a q[sup 2] dependent rate. In this regime we find indications of the additional membrane interaction due to the presence of block-copolymers. © 2001 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2001

13. From Rouse dynamics to local relaxation: A neutron spin echo study on polyisobutylene melts.

Author

Richter, D. and Monkenbusch, M.

Subjects

*BUTENE, *NEUTRON spin echoes

Abstract

Studies the single chain motions of monodisperse polyisobutylene chains in the melt by neutron spin echo spectroscopy. Motional processes from the center of mass diffusion; Dynamic structure factors; Damping effects related to an internal viscosity of the chain.

Published

1999

14. Neutron spin echo investigation of the concentration fluctuations dynamics in melts of diblock...

Author

Montes, H., Monkenbusch, M., Willner, L., Rathgeber, S., Fetters, L., and Richter, D.

Subjects

NEUTRON spin echoes, FLUCTUATIONS (Physics), COPOLYMERS, ORDER-disorder models

Abstract

Describes a neutron spin investigation of the concentration fluctuation dynamics in melts of diblock copolymers. Description of the transitions in terms of random phase approximation of Leibler and Fredrickson; Explanation of small angle scattering results in the neighborhood of order-disorder phase transitions.

Published

1999

15. Polymer dynamics in bimodal polyethylene melts: A study with neutron spin echo spectroscopy and...

Author

Rathgeber, S., Willner, L., Richter, D., Brulet, A., Farago, B., Appel, M., and Fleischer, G.

Subjects

POLYMERS, POLYETHYLENE

Abstract

Investigates the dynamics of polymers in bimodal polyethylene melts in the transition region from Rousse- to reptationlike behavior by varying the mass fraction of long tracer chains in a short-chain matrix over the full concentration range. Examination of the dynamic structure factor for single-chain relaxation by neutron-spin-echo spectroscopy.

Published

1999

16. The positive muon in the intermetallic hydride ZrV2Hx: A muon tracer study supplemented by differential thermoanalysis, neutron vibrational spectroscopy, and quasielastic neutron scattering.

Author

Hempelmann, R., Richter, D., Hartmann, O., Karlsson, E., and Wäppling, R.

Subjects

*HYDRIDES, *SPECTRUM analysis, *TEMPERATURE

Abstract

ZrV2 is an intermetallic compound with energetically different interstitial sites, which upon hydrogenation are successively filled with hydrogen (thermodynamic distribution). When a positive muon is added as a microscopic probe, it is thermalized at random and thus at low temperatures statistically distributed over the available (unblocked) interstices. By varying the preloading we scan the accessible hydrogen sites and find that at high hydrogen content three kinds of interstices are occupied, in contradiction to literature diffraction data. This surprising result is confirmed by a detailed neutron vibrational spectroscopy study on ZrV2Hx which is presented as well. The temperature dependence of the μ+ relaxation rate is textbook-like in empty ZrV2: static muon at T<50 K, complete motional narrowing at T>200 K. In ZrV2Hx, however, the relaxation rate exhibits an intermediate plateau which we attribute to a relocation of the muon. The motion of the muon above 150 K is interpreted as being directly related to the hydrogen diffusion which we have separately measured by means of quasielastic neutron scattering. In addition, we investigated the ZrV2/H phase diagram by differential thermoanalysis. [ABSTRACT FROM AUTHOR]

Published

1989

17. The positive muon as a tracer for the study of dynamic correlation effects in metal hydrogen systems.

Author

Richter, D., Hempelmann, R., Hartmann, O., Karlsson, E., Norlin, L. O., Cox, S. F. J., and Kutner, R.

Published

1983

18. Study of molecular motion in modification C of the n-alkane n-C33H68 by means of incoherent quasielastic neutron scattering.

Author

Ewen, B. and Richter, D.

Published

1978

19. Quasielastic neutron scattering experiments near the order-disorder phase transition on NH4Cl single crystals.

Author

Töpler, J., Richter, D. R., and Springer, T.

Published

1978

20. Segmental mobilities in an athermal diblock copolymer melt far above Tg by incoherent neutron scattering.

Author

Fytas, G., Meier, G., and Richter, D.

Subjects

COPOLYMERS, SCATTERING (Physics), NEUTRONS

Abstract

We report on incoherent elastic and quasielastic neutron scattering from a symmetric poly(isoprene-1,2 butadiene) (PIP-PVE) almost athermal diblock copolymer at different wave vectors Q in the range 0.18 to 1.8 Å-1. A fixed window temperature scan between 20 K and 300 K revealed the presence of segmental dynamics above 200 K and hence line shape analysis of the incoherent quasielastic spectra Sinc(Q,ω) was performed at high temperatures far above the single glass transition Tg(=221 K) to obtain the characteristic time scales. A two step nonexponential relaxation function was found adequate to describe consistently Sinc(Q,ω) with the faster relaxation time being comparable with the segmental relaxation time in bulk PIP at similar Q. This dynamic incompatibility may arise from dynamic heterogeneities as a consequence of composition fluctuations. The observation of a bimodal relaxation distribution function in PIP–PVE with low Tg contrast at temperatures far above the single Tg emphasizes the role of the intramolecular correlations due to chain connectivity. © 1996 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

1996

21. Molecular dynamics of water in oriented DPPC multilayers studied by quasielastic neutron scattering and deuterium-nuclear magnetic resonance relaxation.

Author

König, S., Sackmann, E., Richter, D., Zorn, R., Carlile, C., and Bayerl, T. M.

Subjects

MOLECULAR dynamics, WATER, NEUTRON scattering, DEUTERIUM, NUCLEAR magnetic resonance

Abstract

The dynamics of water between highly oriented multilayers of 1,2-dipalmitoyl-sn-glycero-3-phosphocholine (DPPC) has been studied in two time domains at different hydration levels. Incoherent quasielastic neutron scattering (QENS) and deuterium-nuclear magnetic resonance (NMR) longitudinal (T1) relaxation were employed to investigate both the high-frequency motions of water (10-9–10-11 s time scale) and their anisotropy, while 2H-NMR transverse (T2) relaxation was used for obtaining information on low frequency dynamical processes (microsecond time scale). Our results show that high frequency dynamics (picosecond-time scale) at low hydration (three to four water molecules per lipid) can be understood solely as a uniaxial rotation of the water molecules tightly bound to DPPC head groups with a correlation time τrot≊62 ps at 55 °C and a rotational radius of 1±0.1 Å, but with no detectable translational degrees of freedom. The 2H-NMR T1 data (nanosecond-time scale) can be explained satisfactorily on the basis of fast rotations with the correlation time above and a slower reorientation of the rotational axis (correlation time τ1≊6 ns).Both QENS and 2H-NMR T1 measurements provide an apparent activation energy of Ea=32±1.0 kJ/mol for this process. Increasing the hydration level of the multilayers leaves the rotational motion essentially unchanged, but enables additional translational motion which can be considered as a jump diffusion process (diffusion coefficient D=16±1×10-10 m2/s at 44 °C and a mean residence time of τ0=2.0±0.5 ps) of nonbound water. It is interesting to note that this diffusion is completely isotropic on the characteristic length scale of this QENS experiment (≤10 Å). Temperature variation shows that the phase state of the lipids has no significant effect on the high frequency dynamics of the water molecules. Measurements of the 2H-NMR quadrupolar splitting of... [ABSTRACT FROM AUTHOR]

Published

1994

22. Rotational tunneling of methane on MgO surfaces: A neutron scattering study.

Author

Larese, J. Z., Hastings, J. M., Passell, L., Smith, D., and Richter, D.

Subjects

METHANE, MAGNESIUM compounds, QUANTUM tunneling, NEUTRON scattering

Abstract

High-resolution inelastic neutron scattering was used to investigate the rotational tunneling of methane molecules in a [larger_closed_square]×[larger_closed_square]R45° commensurate, square-lattice–solid monolayer adsorbed on MgO (100) surfaces. Good matches to the observed transition energies were obtained using potential functions with C2v symmetry, suggesting that the preferred orientation of the molecule is the dipod-down configuration with two opposite edges of the H-atom tetrahedron parallel to the surface plane. [ABSTRACT FROM AUTHOR]

Published

1991

23. Study of molecular motion in modification Cof the n‐alkane n‐C33H68by means of incoherent quasielastic neutron scattering

Author

Ewen, B. and Richter, D.

Published

1978

24. Effect of amphiphilic block copolymers on the structure and phase behavior of oil-water-surfactant mixtures.

Author

Endo, H., Mihailescu, M., Monkenbusch, M., Allgaier, J., Gompper, G., Richter, D., Jakobs, B., Sottmann, T., Strey, R., and Grillo, I.

Subjects

BLOCK copolymers, SURFACE active agents, MIXTURES

Abstract

The effect of amphiphilic diblock copolymers of several molecular weights on the structure and phase behavior of ternary amphiphilic systems (water, oil, and nonionic surfactant) is investigated. Small amounts of amphiphilic block copolymer polyethyleneoxide-polyethylpropylene lead to a dramatic decrease of the amount of total surfactant needed to solubilize given equal volumes of water and oil in a bicontinuous microemulsion. Neutron scattering experiments employing a high-precision two-dimensional contrast variation technique demonstrate that the polymer is distributed uniformly on the surfactant membrane. Based on these observations, we propose a mechanism for the enhancement of swelling behavior, which is due to the variation of the membrane curvature elasticity by polymer mushrooms anchored to the interface. © 2001 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2001

25. On the non-Gaussianity of chain motion in unentangled polymer melts.

Author

Smith, Grant D., Paul, Wolfgang, Monkenbusch, M., and Richter, D.

Subjects

POLYBUTADIENE, MOLECULAR dynamics, ELECTRON spin echoes, INTERMOLECULAR forces

Abstract

We have investigated chain dynamics of an unentangled polybutadiene melt via molecular dynamics simulations and neutron spin echo experiments. Good short-time statistics allows for the first experimental confirmation of subdiffusive motion of polymer chains for times less than the Rouse time (τ[sub R]) confirming behavior in this regime observed in simulations. Analysis of simulation trajectories obtained over several Rouse times reveals non-Gaussian segmental displacements for all time and length scales. These results, particularly non-Gaussian displacements on large time- and length scales, demonstrate the importance of intermolecular correlations on chain dynamics. Rouse-type analytical models fail to account for this non-Gaussianity leading to large deviations between the experimental dynamic structure factor and model predictions. © 2001 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

2001

26. Dynamic structure factors of polymer melts as observed by neutron spin echo: Direct comparison and reevaluation.

Author

Monkenbusch M, Kruteva M, and Richter D

Abstract

In this work, we compare the single chain dynamic structure factors for five different polymers: polyolefins (PE and PEP), poly-dienes (PB and PI), and a polyether (PEO). For this purpose, we have extended the De Gennes approximation for the dynamic structure factor. We describe the single chain dynamic structure factor in multiplying the coherent scattering functions for local reptation and Rouse motion within the Rouse blob. Important results are (i) the simple De Gennes structure factor S(Q, t)DG approximates within a few Å the outcome for the tube diameter of the more elaborate structure factor (exception PI); (ii) the extended De Gennes structure factor together with the Rouse blob describes the neutron spin echo spectra from the different polymers over the complete momentum transfer range and the full time regime from early Rouse motion to local reptation; and (iii) the representation of the scattering functions could significantly be improved by introducing non-Gaussianity corrections to the Rouse-blob dynamics. (iv) The microscopic tube step length in all cases is significantly larger than the rheological one; further tweaking the relation between tube length and entanglement blob size may indicate a possible trend toward an anisotropic lean tube with a step-length larger than the lateral extension. (v) All considered polymer data coincide after proper (Q, t) scaling to a universal behavior according to the length scale of the tube, while the relevant time scale is the entanglement time τe. (vi) In terms of the packing model, the required number of chains spanning the entanglement volume consistently is about 40% larger than that obtained from rheology., (© 2023 Author(s). Published under an exclusive license by AIP Publishing.)

Published

2023

27. Quasielastic neutron scattering reveals the temperature dependent rotational dynamics of densely grafted oleic acid.

Author

Sharma A, Kruteva M, Zamponi M, Ehlert S, Richter D, and Förster S

Subjects

Diffusion, Rotation, Temperature, Neutrons, Oleic Acid

Abstract

We study the dynamics of pure oleic acid and grafted oleic acid synthesized by decomposing iron oleate into oleic acid grafted iron oxide nanoparticles. Our quasielastic neutron scattering study shows that oleic acid dominantly performs translational diffusion at room temperature. On the other hand, in nanocomposites, constraints imposed by grafting and crowding of neighboring chains restrict the grafted oleic acid to uniaxial rotation. Interestingly, it also manifests mobility in grafted oleic acid below the crystallization temperature of pure oleic acid. The data from grafted oleic acid could be effectively described using a uniaxial rotational diffusion model with an additional elastic scattering contribution. This kind of elastic scattering arises due to the restricted bond mobility and increases with decreasing temperature. The radius of rotation obtained from the fitted data agrees very well with the geometry of the molecule and grafting density. These results open possibilities of research on the confined surfactant systems, which could be analyzed using the approach described here.

Published

2022

28. Fractal diffusion in high temperature polymer electrolyte fuel cell membranes.

Author

Hopfenmüller B, Zorn R, Holderer O, Ivanova O, Lehnert W, Lüke W, Ehlers G, Jalarvo N, Schneider GJ, Monkenbusch M, and Richter D

Abstract

The performance of fuel cells depends largely on the proton diffusion in the proton conducting membrane, the core of a fuel cell. High temperature polymer electrolyte fuel cells are based on a polymer membrane swollen with phosphoric acid as the electrolyte, where proton conduction takes place. We studied the proton diffusion in such membranes with neutron scattering techniques which are especially sensitive to the proton contribution. Time of flight spectroscopy and backscattering spectroscopy have been combined to cover a broad dynamic range. In order to selectively observe the diffusion of protons potentially contributing to the ion conductivity, two samples were prepared, where in one of the samples the phosphoric acid was used with hydrogen replaced by deuterium. The scattering data from the two samples were subtracted in a suitable way after measurement. Thereby subdiffusive behavior of the proton diffusion has been observed and interpreted in terms of a model of fractal diffusion. For this purpose, a scattering function for fractal diffusion has been developed. The fractal diffusion dimension d w and the Hausdorff dimension d f have been determined on the length scales covered in the neutron scattering experiments.

Published

2018

29. Erratum: "Polymer dynamics under cylindrical confinement featuring a locally repulsive surface: A quasielastic neutron scattering study" [J. Chem. Phys. 146, 203306 (2017)].

Author

Krutyeva M, Pasini S, Monkenbusch M, Allgaier J, Maiz J, Mijangos C, Hartmann-Azanza B, Steinhart M, Jalarvo N, Ivanova O, Holderer O, Radulescu A, Ohl M, Falus P, Unruh T, and Richter D

Published

2017

30. Description of poly(ethylenepropylene) confined in nanopores by a modified Rouse model.

Author

Muthmann M, Krutyeva M, Willner L, Allgaier J, Richter D, Zorn R, Ohl M, Rebbin V, and Lindner P

Abstract

A recent model for unentangled polymer chains in confinement [M. Dolgushev and M. Krutyeva, Macromol. Theory Simul. 21, 565 (2012)] is scrutinized by small-angle neutron scattering (SANS) with respect to its static prediction, the single-chain structure factor. We find a remarkable agreement although the model simplifies the effect of the confinement to a harmonic potential. The effective confinement size from fits of SANS data with the model agrees well with the actual pore size. Starting from this result we discuss the possibility of an experiment on the dynamic structure factor predicted by the model. It turns out that such an experiment would need a large ratio polymer dimension/pore size which is difficult but not impossible to achieve.

Published

2017

31. Neutron scattering study of the dynamics of a polymer melt under nanoscopic confinement.

Author

Krutyeva M, Martin J, Arbe A, Colmenero J, Mijangos C, Schneider GJ, Unruh T, Su Y, and Richter D

Abstract

Poly(ethylene oxide) confined in an anodic aluminum oxide solid matrix has been studied by different neutron scattering techniques in the momentum transfer (Q) range 0.2

Published

2009

32. Atomic motions in the alphabeta-merging region of 1,4-polybutadiene: a molecular dynamics simulation study.

Author

Narros A, Arbe A, Alvarez F, Colmenero J, and Richter D

Abstract

We present fully atomistic molecular dynamics simulations on 1,4-polybutadiene in a wide temperature range from 200 to 280 K, i.e., in the region where the alpha- and beta-relaxations merge and above. A big computational effort has been performed-especially for the lowest temperatures investigated-to extend the simulation runs to very long times (up to 1 mus for 200 K). The simulated sample has been carefully validated by using previous neutron scattering data on the real sample with similar microstructure. Inspecting the trajectories of the different hydrogens in real space, we have observed a heterogeneous dynamical behavior (each kind of hydrogen moves in a different way) with signatures of combined hopping and diffusive motions in the whole range investigated. The application of a previously proposed model [Colmenero et al., Europhys. Lett. 71, 262 (2005)] is successful and a characterization of the local motions and diffusion is possible. The comparison of our results to those reported in the literature provides a consistent scenario for polybutadiene dynamics and puts into a context the different experimental observations. We also discuss the impact of the hopping processes on the observation and interpretation of experimentally accessible magnitudes and the origin of the deviations from Gaussian behavior in this system.

Published

2008

33. Plasticizer effect on the dynamics of polyvinylchloride studied by dielectric spectroscopy and quasielastic neutron scattering.

Author

Zorn R, Monkenbusch M, Richter D, Alegría A, Colmenero J, and Farago B

Abstract

We have studied the influence of plasticization on the microscopic dynamics of a glass-forming polymer. For this purpose we studied polyvinylchloride (PVC) with and without the commercially used plasticizer dioctylphthalate (DOP). We used dielectric spectroscopy and inelastic neutron scattering employing the neutron spin echo (NSE) technique. For both kinds of spectra the alpha relaxation could be consistently described by a model involving a distribution of individual relaxations of the Kohlrausch type. In contrast to earlier studies it turned out that an asymmetric distribution is necessary to fit the data at the lower temperatures investigated here. The shape parameters of the distribution (width, skewness) for PVC and PVC/DOP turned out to coincide when the characteristic relaxation times were the same. This means that the plasticizer only induces a remapping of the temperature dependence of the alpha relaxation. Comparison of NSE spectra S(Q,t)S(Q) at different scattering vectors Q gave the result that the slowing down at the structure factor peak Q(max) is surprisingly small for PVC while it is in the normal range for PVC/DOP.

Published

2006

34. An in situ study of the t-butyllithium initiated polymerization of butadiene in d-heptane via small angle neutron scattering and 1H-NMR.

Author

Niu AZ, Stellbrink J, Allgaier J, Willner L, Radulescu A, Richter D, Koenig BW, May RP, and Fetters LJ

Abstract

We present a combined 1H-NMR and small angle neutron scattering in situ study of the anionic polymerization of butadiene using t-butyllithium as the initiator. Both initiation and propagation phases were explored. This combined approach allows the structural and kinetic characteristics to be accessed and cross compared. The use of the D22 instrument (ILL Grenoble) permits the attainment of Q approximately equal to 2 x 10(-3) A. This, in turn, led to the identification of coexisting large-scale and smaller aggregates during all stages of the polymerization. The smaller aggregates contain most of the reacted monomers. Their structure changes from high functionality wormlike chains at early stages of the reaction to starlike aggregates where the crossover occurs at a degree of polymerization of approximately equal to 40. The initiation event involved these small, high functionality (approximately equal to 120) aggregates that apparently consisted of cross-associated t-butyllithium with the newly formed allylic-lithium head groups. As the initiation event progressed the initiation rate increased while the functionality of these small aggregates decreased and their size increased. Propagation, in the absence of initiation, was found to have a rate constant that was molecular weight dependent. At approximately 11 kg/mol the measured polymerization rate was found to increase while no further structural changes were seen.

Published

2005

35. Dynamic properties of microemulsions modified with homopolymers and diblock copolymers: the determination of bending moduli and renormalization effects.

Author

Holderer O, Frielinghaus H, Byelov D, Monkenbusch M, Allgaier J, and Richter D

Abstract

The properties of bicontinuous microemulsions, consisting of water, oil, and a surfactant, can be modified by the addition of diblock copolymers (boosting effect) and homopolymers (inverse boosting effect) or a combination of both. Here, the influence of the addition of homopolymers (PEP(X) and PEO(X), X=5k or 10k molecular weight) on the dynamics of the surfactant layer is studied with neutron spin echo spectroscopy (NSE). Combining the results with the previous findings for diblock copolymers allows for a better separation of viscosity and bending modulus effects. With the addition of homopolymers, a significant increase of the relaxation rate compared to the pure microemulsion has been observed. The influence on the bending rigidity kappa is measured with NSE experiments. Homopolymer addition reduces kappa by up to Deltakappa approximately -0.5k(B)T, whereas the diblock copolymer yields an increase of kappa by approximately 0.3k(B)T. Comparison of the bending moduli that are obtained by analysis of the dynamics to those obtained from small angle neutron scattering (SANS) sheds light on the different renormalization length scales for NSE and SANS. Variation of the surfactant concentration at otherwise constant conditions of homopolymer or diblock-copolymer concentration shows that NSE results are leading to the pure bending rigidity, while the renormalized one is measured with SANS.

Published

2005

36. Concentration fluctuations in polymer gel investigated by neutron scattering: static inhomogeneity in swollen gel.

Author

Koizumi S, Monkenbusch M, Richter D, Schwahn D, and Farago B

Abstract

By using small-angle neutron scattering (SANS) and neutron spin echo (NSE), we have quantitatively investigated the static inhomogeneity in poly (N-isopropyl acrylamide) gel (PNIPA) in microscopic length scales of 0.015

Published

2004

37. Hydrogen motions in the alpha-relaxation regime of poly(vinyl ethylene): a molecular dynamics simulation and neutron scattering study.

Author

Narros A, Alvarez F, Arbe A, Colmenero J, Richter D, and Farago B

Abstract

The hydrogen motion in poly(vinyl ethylene) (1,2-polybutadiene) in the alpha-relaxation regime has been studied by combining neutron spin echo (NSE) measurements on a fully protonated sample and fully atomistic molecular dynamics simulations. The almost perfect agreement between experiment and simulation results validates the simulated cell. A crossover from Gaussian to non-Gaussian behavior is observed for the intermediate scattering function obtained from both NSE measurements and simulations. This crossover takes place at unusually low Q values, well below the first maximum of the static structure factor. Such anomalous deviation from Gaussian behavior can be explained by the intrinsic dynamic heterogeneity arising from the differences in the dynamics of the different protons in this system. Side group hydrogens show a markedly higher mobility than main chain protons. Taking advantage of the simulations we have investigated the dynamic features of all different types of hydrogens in the sample. Considering each kind of proton in an isolated way, deviations from Gaussian behavior are also found. These can be rationalized in the framework of a simple picture based on the existence of a distribution of discrete jumps underlying the atomic motions in the alpha process., ((c) 2004 American Institute of Physics.)

Published

2004