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Your search keyword '"Falus, Péter"' showing total 27 results
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27 results on '"Falus, Péter"'

1. Spatial correlations of entangled polymer dynamics

Author

Ma, Jihong, Carrillo, Jan-Michael Y., Do, Changwoo, Chen, Wei-Ren, Falus, Péter, Shen, Zhiqiang, Hong, Kunlun, Sumpter, Bobby G., and Wang, Yangyang

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

The spatial correlations of entangled polymer dynamics are examined by molecular dynamics simulations and neutron spin-echo spectroscopy. Due to the soft nature of topological constraints, the initial spatial decays of intermediate scattering functions of entangled chains are, to the first approximation, surprisingly similar to those of an unentangled system in the functional forms. However, entanglements reveal themselves as a long tail in the reciprocal-space correlations, implying a weak but persistent dynamic localization in real space. Comparison with a number of existing theoretical models of entangled polymers suggests that they cannot fully describe the spatial correlations revealed by simulations and experiments. In particular, the strict one-dimensional diffusion idea of the original tube model is shown to be flawed. The dynamic spatial correlation analysis demonstrated in this work provides a useful tool for interrogating the dynamics of entangled polymers. Lastly, the failure of the investigated models to even qualitatively predict the spatial correlations of collective single-chain density fluctuations points to a possible critical role of incompressibility in polymer melt dynamics.

Published
2021
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2. Q-dependent Collective Relaxation Dynamics of Glass-Forming Liquid Ca0.4K0.6(NO3)1.4 Investigated by Wide-Angle Neutron Spin-Echo

Author

Luo, Peng, Zhai, Yanqin, Falus, Peter, Sakai, Victoria Garcia, Hartl, Monika, Kofu, Maiko, Nakajima, Kenji, Faraone, Antonio, and Zhang, Yang

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Employing wide-angle neutron spin echo spectroscopy, we measured the Q-dependent coherent intermediate scattering function of the prototypical ionic glass former Ca0.4K0.6(NO3)1.4, in the equilibrium and supercooled liquid states beyond the hydrodynamic regime. The data reveal a clear two-step relaxation: an exponential fast process, and a stretched exponential slow alpha process. de Gennes narrowing is observed in all characteristic variables of the alpha process: the relaxation time, amplitude, and stretching exponent. At all length scales probed, the relative amplitude of the alpha-relaxation decreases with increasing temperature and levels off in the normal liquid state. The temperature dependence of the stretching exponent and the relaxation time at different Q's indicate that modifications of the relaxation mechanisms at the local length scales, manifested as temperature independent dynamic heterogeneity and smaller deviations from Arrhenius behavior, have occurred even above the alpha-beta (Johari-Goldstein) bifurcation temperature.

Published
2021
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3. Skyrmions and spirals in MnSi under hydrostatic pressure

Author

Bannenberg, Lars J., Sadykov, Ravil, Dalgliesh, Robbert M., Goodway, Chris, Schlagel, Deborah L., Lograsso, Thomas A., Falus, Peter, Lelièvre-Berna, Eddy, Leonov, Andrey O., and Pappas, Catherine

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

The archetype cubic chiral magnet MnSi is home to some of the most fascinating states in condensed matter such as skyrmions and a non-Fermi liquid behavior in conjunction with a topological Hall effect under hydrostatic pressure. Using small angle neutron scattering, we study the evolution of the helimagnetic, conical and skyrmionic correlations with increasing hydrostatic pressure. We show that the helical propagation vector smoothly reorients from $\langle 111 \rangle$ to $\langle100\rangle$ at intermediate pressures. At higher pressures, above the critical pressure, the long-range helimagnetic order disappears at zero magnetic field. Nevertheless, skyrmion lattices and conical spirals form under magnetic fields, in a part of the phase diagram where a topological Hall effect and a non-Fermi liquid behavior have been reported. These unexpected results shed light on the puzzling behavior of MnSi at high pressures and the mechanisms that destabilize the helimagnetic long-range order at the critical pressure.

Published
2019
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4. A Bayesian analysis of neutron spin echo data on polymer coated gold nanoparticles in aqueous solutions

Author

De Francesco, Alessio, Scaccia, Luisa, Lennox, R. Bruce, Guarini, Eleonora, Bafile, Ubaldo, Falus, Peter, and Maccarini, Marco

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

We present a neutron spin echo study (NSE) of the nanosecond dynamics of polyethylene glycol (PEG) functionalised nanosized gold particles dissolved in D$_2$O at two temperatures and two different PEG molecular weights. The analysis of the NSE data was performed by applying a Bayesian approach to the description of time correlation function decays in terms of exponential terms, recently proved to be theoretically rigorous. This approach, which addresses in a direct way the fundamental issue of model choice in any dynamical analysis, provides here a guide to the most statistically supported way to follow the decay of the Intermediate Scattering Functions I(Q, t) by basing on statistical grounds the choice of the number of terms required for the description of the nanosecond dynamics of the studied systems. Then, the presented analysis avoids from the start resorting to a pre-selected framework and can be considered as model free. By comparing the results of PEG coated nanoparticles with those obtained in PEG2000 solutions, we were able to disentangle the translational diffusion of the nanoparticles from the internal dynamics of the polymer grafted to them, and to show that the polymer corona relaxation follows a pure exponential decay in agreement with the behavior predicted by coarse grained molecular dynamics simulations and theoretical models. This methodology has one further advantage: in the presence of a complex dynamical scenario I(Q,t) is often described in terms of the Kohlrausch-Williams-Watts function that can implicitly represent a distribution of relaxation times. By choosing to describe the I(Q,t) as a sum of exponential functions and with the support of the Bayesian approach, we can explicitly determine when a finer-structure analysis of the dynamical complexity of the system exists according to the available data without the risk of overparametrisation.

Published
2019
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5. Dynamical Crossover in Soft Colloids below the Overlap Concentration

Author

Li, Xin, Sánchez-Diáz, Luis E., Wu, Bin, Hamilton, William A., Porcar, Lionel, Falus, Péter, Liu, Yun, Do, Changwoo, Smith, Gregory S., Egami, Takeshi, and Chen, Wei-Ren

Subjects
Physics - Chemical Physics, Condensed Matter - Soft Condensed Matter
Abstract

The dynamics of soft colloids in solutions is characterized by internal collective motion as well as center-of-mass diffusion. Using neutron scattering we demonstrate that the competition between the relaxation processes associated with these two degrees of freedom results in strong dependence of dynamics and structure on colloid concentration, c, even well below the overlap concentration c*. We show that concurrent with increasing inter-particle collisions, substantial structural dehydration and slowing-down of internal dynamics occur before geometrically defined colloidal overlap develops. While previous experiments have shown that the average size of soft colloids changes very little below c*, we find a marked change in both the internal structure and internal dynamics with concentration. The competition between these two relaxation processes gives rise to a new dynamically-defined dilute threshold concentration well below c*., Comment: 5 pages, 3 figures in the manuscript; 17 pages, 8 figures and 3 tables in the supplementary material

Published
2014

6. Using neutron spin-echo to investigate proton dynamics in proton-conducting perovskites

Author

Karlsson, Maths, Engberg, Dennis, Björketun, Mårten E., Matic, Aleksandar, Wahnström, Göran, Sundell, Per G., Berastegui, Pedro, Ahmed, Istaq, Falus, Peter, Farago, Bela, Börjesson, Lars, and Eriksson, Sten

Subjects
Condensed Matter - Materials Science
Abstract

We demonstrate the applicability of studying the proton dynamics in proton-conducting perovskites using neutron spin-echo spectroscopy, a powerful method hitherto neglected for studies of the proton dynamics in ceramic proton conductors. By combining our neutron spin-echo results of hydrated BaZr0.90Y0.10O2.95 with results obtained from kinetic modeling based on first-principles calculations we show that already over a length-scale as short as 2 nm the long-range proton self-diffusion is observed, and the likely effect of dopant atoms acting as trapping centers has averaged out., Comment: 3 pages, 3 figures, Supporting Information available

Published
2009

7. X-ray photon correlation spectroscopy under flow

Author

Fluerasu, Andrei, Moussaid, Abdellatif, Gleyzolle, Henri, Falus, Peter, and Madsen, Anders

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

X-ray photon correlation spectroscopy was used to probe the diffusive dynamics of colloidal particles in a shear flow. Combining X-ray techniques with microfluidics is an experimental strategy that reduces the risk of x-ray induced beam damage and also allows time-resolved studies of processes taking place in flowcells. The experimental results and theoretical predictions presented here, show that in the low shear limit, for a ``transverse flow'' scattering geometry (scattering wave vector q perpendicular to the direction of flow) the measured relaxation times are independent of the flow rate and determined only by the diffusive motion of the particles. This is not generally valid and in particular, for a ``longitudinal flow'' (q || flow) scattering geometry, the relaxation times are strongly affected by the flow-induced motion of the particles. Our results show that the Brownian diffusion of colloidal particles can be measured in a flowing sample and that, up to flux limitations, the experimental conditions under which this is possible are easier to achieve at higher values of q., Comment: 7 pages, 5 figures, to appear in J. Synchrotron Rad

Published
2008

11. Spatial correlations of entangled polymer dynamics

Author

Ma, Jihong, primary, Carrillo, Jan-Michael Y., additional, Do, Changwoo, additional, Chen, Wei-Ren, additional, Falus, Péter, additional, Shen, Zhiqiang, additional, Hong, Kunlun, additional, Sumpter, Bobby G., additional, and Wang, Yangyang, additional

Published
2021
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13. 1.5 GPa compact double-wall clamp cell for SANS and NSE studies at low temperatures and high magnetic fields

Author

Sadykov, Ravil (author), Pappas, C. (author), Bannenberg, L.J. (author), Dalgliesh, Robert M. (author), Falus, Péter (author), Goodway, Christopher (author), Lelièvre-Berna, Eddy (author), Sadykov, Ravil (author), Pappas, C. (author), Bannenberg, L.J. (author), Dalgliesh, Robert M. (author), Falus, Péter (author), Goodway, Christopher (author), and Lelièvre-Berna, Eddy (author)

Abstract

We have developed and realised a compact high-pressure clamp cell of the piston-cylinder type for Small Angle Neutron Scattering (SANS) and Neutron Spin Echo (NSE) spectroscopy measurements. The cell can pressurise φ5 mm samples up to 1.5 GPa. It is non-magnetic, produces a sufficiently low and flat SANS background with a relatively good neutron transmission and can be used in combination with polarised neutrons. The cell accommodates samples of up to 55 mm3 in volume and adopts a two-layer geometry: a TiZr body (outer layer) and a CuBe2 insert (inner layer). Its design is very compact and can be employed inside cryomagnets featuring a sample bore greater than φ30 mm. We present the cell and illustrate its performances with a series of neutron scattering experiments performed on single-crystalline MnSi., RST/Neutron and Positron Methods in Materials

Published
2018
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17. Dynamical Threshold of Diluteness of Soft Colloids

Author

Li, Xin, primary, Sánchez-Diáz, Luis E., additional, Wu, Bin, additional, Hamilton, William A., additional, Falus, Péter, additional, Porcar, Lionel, additional, Liu, Yun, additional, Do, Changwoo, additional, Faraone, Antonio, additional, Smith, Gregory S., additional, Egami, Takeshi, additional, and Chen, Wei-Ren, additional

Published
2014
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19. A Continuous-Flow Cascade Reactor System for Subtilisin A- Catalyzed Dynamic Kinetic Resolution of N- tert-Butyloxycarbonylphenylalanine Ethyl Thioester with Benzylamine.

Author

Falus, Péter, Cerioli, Lorenzo, Bajnóczi, Gabriella, Boros, Zoltán, Weiser, Diána, Nagy, József, Tessaro, Davide, Servi, Stefano, and Poppe, László

Subjects
*THIOESTERS, *BENZYLAMINE, *KINETIC resolution, *PHENYLALANINE, *RACEMIZATION
Abstract

Alcalase® (Subtilisin A) was immobilized by simple hydrophobic adsorption onto various surface-grafted macroporous silica gels resulting in easy-to-prepare and stable biocatalysts enabling the efficient kinetic resolution (KR) and dynamic kinetic resolution (DKR) of racemic N-Boc-phenylalanine ethyl thioester with benzylamine. The immobilized Alcalase biocatalysts, which retained their activity and selectivity when stored at 4 °C for more than a year, were tested in enzymatic aminolysis in batch and continuous-flow KRs resulting in ( S)- N-Boc-phenylalanine benzylamide in high enantiomeric purity. In KR of the racemic thioester by Alcalase-catalyzed aminolysis in a continuous-flow reactor, the productivity (specific reaction rate, rflow) and enantiomeric ratio ( E) were studied in the 0-100 °C range. The effect of the temperature on base-catalyzed racemization of the non-transformed ( R)-thioester in a continuous-flow reactor was also investigated in the 0-150 °C range. The continuous-mode DKR of the racemic thioester in a serial cascade system of six biocatalyst-filled columns at 50 °C for KR and five grafted silica gel-filled columns at 150 °C for racemization resulted in the formation of the ( S)-benzylamide in 79% conversion, 8.17 g L−1 h−1 volumetric productivity and 98% ee. This is the first example of a dynamic kinetic resolution of an amino acid derivative in continuous-flow mode using an alternating cascade of packed-bed enzyme reactors and racemization reactors kept at different temperatures. [ABSTRACT FROM AUTHOR]

Published
2016
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20. X-ray photon correlation spectroscopy studies of the dynamics of self-assembling block copolymer structures

Author

David J. Litster and Simon G. J. Mochrie., Massachusetts Institute of Technology. Dept. of Physics., Falus, Péter, 1972, David J. Litster and Simon G. J. Mochrie., Massachusetts Institute of Technology. Dept. of Physics., and Falus, Péter, 1972

Abstract

Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2004., Vita., Includes bibliographical references (p. 224-234)., Several improvements presented to the emerging technique of X-ray Photon Correlation Spectroscopy. These improvements enabled the study of polymer structures, in particular isotropic sponge phases of homo-polymer block copolymer mixtures. An analysis is presented on how to optimize the experimental beamline configuration for achieving the best possible signal-to-noise ratio (SNR) in x-ray photon correlation spectroscopy (XPCS) experiments. A new, fast x-ray detector system is developed for high-throughput, high-sensitivity, time-resolved, x-ray scattering and imaging experiments, most especially x-ray photon correlation spectroscopy (XPCS). The new detector is characterized in detail, and its performance is evaluated in terms of its signal to noise ratio. Data analysis and photon discrimination techniques are discussed in conjunction with the high data rates this detector produces. The improved detector is capable of collecting the same quality XPCS data in fifty times shorter time than previously available detectors. Detailed characterization of polystyrene ethylenebuthylene styrene sponge phase block copolymer samples is presented. Static X-ray scattering is employed to explore the structure of block copolymer sponge phase samples. The dynamics of the polymer samples is probed by X-ray Photon Correlation Spectroscopy, providing the first measurements on the dynamics of a block-copolymer sponge phase. The structural movements are studied at length scales both longer and shorter than the characteristic length scale of the sponge structure., (cont.) The intermediate scattering function (ISF) is measured in the 2 ms-200 s range of delay times and 0.01-0.2 nm⁻¹ range of wavenumbers. Both the shape and characteristic delay time of the of the ISF is studied versus temperature and concentration of samples. The results are compared with relevant theories., by Péter Falus., Ph.D.

Published
2005

21. X-ray photon correlation spectroscopy studies of the dynamics of self-assembling block copolymer structures

Author

Massachusetts Institute of Technology. Dept. of Physics., David J. Litster and Simon G. J. Mochrie., Falus, Péter, 1972, Massachusetts Institute of Technology. Dept. of Physics., David J. Litster and Simon G. J. Mochrie., and Falus, Péter, 1972

Abstract

Several improvements presented to the emerging technique of X-ray Photon Correlation Spectroscopy. These improvements enabled the study of polymer structures, in particular isotropic sponge phases of homo-polymer block copolymer mixtures. An analysis is presented on how to optimize the experimental beamline configuration for achieving the best possible signal-to-noise ratio (SNR) in x-ray photon correlation spectroscopy (XPCS) experiments. A new, fast x-ray detector system is developed for high-throughput, high-sensitivity, time-resolved, x-ray scattering and imaging experiments, most especially x-ray photon correlation spectroscopy (XPCS). The new detector is characterized in detail, and its performance is evaluated in terms of its signal to noise ratio. Data analysis and photon discrimination techniques are discussed in conjunction with the high data rates this detector produces. The improved detector is capable of collecting the same quality XPCS data in fifty times shorter time than previously available detectors. Detailed characterization of polystyrene ethylenebuthylene styrene sponge phase block copolymer samples is presented. Static X-ray scattering is employed to explore the structure of block copolymer sponge phase samples. The dynamics of the polymer samples is probed by X-ray Photon Correlation Spectroscopy, providing the first measurements on the dynamics of a block-copolymer sponge phase. The structural movements are studied at length scales both longer and shorter than the characteristic length scale of the sponge structure., (cont.) The intermediate scattering function (ISF) is measured in the 2 ms-200 s range of delay times and 0.01-0.2 nm⁻¹ range of wavenumbers. Both the shape and characteristic delay time of the of the ISF is studied versus temperature and concentration of samples. The results are compared with relevant theories., by Péter Falus., Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2004., Vita., Includes bibliographical references (p. 224-234).

Published
2005

25. SYNTHESIS AND LIPASE CATALYSED KINETIC RESOLUTION OF RACEMIC AMINES.

Author

Falus, Péter, Boros, Zoltán, Hornyánszky, Gábor, Nagy, József, Ürge, László, Darvas, Ferenc, and Poppe, László

Subjects
LIPASES, HYDROLASES, AMINES, ORGANIC compounds, TARTARIC acid, KETONES, FEASIBILITY studies
Abstract

Feasibility of production of amines from ketones employing metal and/or metal-catalysts in one-pot and one-step reductive amination (modified Leuckart- and Leuckart-Wallach- reaction) and lipase catalysed kinetic resolution of racemic amines in batch and continuous-flow reactor were investigated. In kinetic resolutions the effect of the solvent, the acetylating agent and the lipase itself was examined. [ABSTRACT FROM AUTHOR]

Published
2010

27. Reconstruction of three-dimensional anisotropic structure from small-angle scattering experiments.

Author

Guan-Rong Huang, Yangyang Wang, Bin Wu, Zhe Wang, Changwoo Do, Smith, Gregory S., Bras, Wim, Porcar, Lionel, Falus, Péter, and Wei-Ren Chen

Subjects
*ANISOTROPY, *SMALL-angle scattering, *SYMMETRY breaking
Abstract

When subjected to flow, the structures of many soft-matter systems become anisotropic due to the symmetry breaking of the spatial arrangements of constituent particles at the microscopic level. At present, it is common practice to use various small-angle scattering techniques to explore flow-induced microstructural distortion. However, there has not been a thorough discussion in the literature on how a three-dimensional anisotropic structure can be faithfully reconstructed from two-dimensional small-angle scattering spectra. In this work, we address this issue rigorously from a mathematical perspective by using real spherical harmonic expansion analysis. We first show that, except for cases in which mechanical perturbation is sufficiently small, the existing small-angle scattering techniques generally do not provide complete information on structural distortion. This limitation is caused by the linear dependence of certain real spherical harmonic basis vectors on the flow-vorticity and flow-velocity gradient planes in the Couette shear cell. To circumvent the constraint imposed by this geometry, an alternative approach is proposed in which a parallel sliding plate shear cell is used with a central rotary axis along the flow direction. From the calculation of rotation of the reference frame, we demonstrate the feasibility of this experimental implementation for a fully resolved three-dimensional anisotropic structure via a case study of sheared polymers. [ABSTRACT FROM AUTHOR]

Published
2017
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