Your search keyword '"Glass-Transition"' showing total 293 results

1. Impact of the polymer dispersity on the properties of curcumin/polyvinylpyrrolidone amorphous solid dispersions

Author

Samsoen, Simon, Dudognon, Émeline, Le Fer, Gaëlle, Fournier, David, Woisel, Patrice, and Affouard, Frédéric

Published

2024

2. Composites of cis‐ and trans‐polyisoprene blend filled with silver nanoparticles: Dynamic mechanical, mechanical, and thermal analysis.

Author

Baboo, Mahesh, Kumar, Satish, Kumar, Bishen, and Sharma, Kananbala

Subjects

*THERMAL analysis, *TRANSMISSION electron microscopes, *SCANNING electron microscopes, *DYNAMIC mechanical analysis, *GLASS transition temperature, *RAMAN scattering, *SILVER nanoparticles

Abstract

In this article, polymer nanocomposites of polyisoprene with specific blend ratio 25/75 wt% of cis‐polyisoprene (CPI) and trans‐polyisoprene (TPI) with varying concentration (0.1, 1, and 5 wt%) of so synthesized silver nanoparticles (AgNPs) have been prepared and characterized through x‐ray diffraction, transmission electron microscope and scanning electron microscope. Experimental results on dynamic mechanical analysis show that addition of AgNPs to CPI/TPI blend reduces storage modulus, activation energy and fragility while enhances damping, however, glass transition temperature remains unaffected. Other mechanical properties such as toughness and tensile strength first increases on addition of AgNPs in the CPI/TPI blend, but a decrease is noticed on further increase of AgNPs concentration. Young's modulus shows a drastic decrease on addition of AgNPs into CPI/TPI blend, however, an increase is observed at higher concentration of AgNPs. Thermal analysis results show that thermal conductivity enhances with the enhancement in concentration of AgNPs into CPI/TPI blend. Highlights: Addition of AgNPs into CPI/TPI blend reduces storage modulus, activation energy and fragilityIncorporation of AgNPs into CPI/TPI blend enhances damping but does not change glass transition temperature.Increase in concentration of AgNPs in CPI/TPI blend increases the thermal conductivity. [ABSTRACT FROM AUTHOR]

Published

2023

3. Water Activity as an Indicator for Antibody Storage Stability in Lyophilized Formulations.

Author

Zäh M, Brandenbusch C, Groël S, Winter G, and Sadowski G

Abstract

Lyophilization remains a key method for preserving sensitive biopharmaceuticals such as monoclonal antibodies. Traditionally, stabilization mechanisms have been explained by vitrification, which minimizes molecular mobility in the lyophilized cake, and water replacement, which restores molecular interactions disrupted by water removal. This study proposes a novel design strategy that combines water activity and glass-transition temperature as the main indicators to predict long-term stability in lyophilized formulations. The water activity, calculated as the product of water activity coefficient and (residual) water content, serves as a mutual indicator of molecular interactions and influence of residual water content in the lyophilizate. By predicting beneficial excipient combinations through activity coefficient calculations using the perturbed-chain statistical association fluid theory model and calculating T using the Gordon-Taylor equation, the study identifies favorable excipient systems, such as sucrose/ectoine mixtures, providing formulation windows that offer broad stability ranges. The approach was validated with stability studies, confirming that formulations within a water activity range of 0.025-0.25 exhibit high (long-term) stability. This work advances formulation development by integrating water-excipient interactions and residual moisture content into a predictive model, moving beyond traditional empirical methods and offering a robust pathway to the design of stable biopharmaceutical formulations. This makes it possible to achieve high/favorable water activities despite low residual moisture (thus, high glass-transition temperatures) with plausible excipient concentrations and combinations.g using the Gordon-Taylor equation, the study identifies favorable excipient systems, such as sucrose/ectoine mixtures, providing formulation windows that offer broad stability ranges. The approach was validated with stability studies, confirming that formulations within a water activity range of 0.025-0.25 exhibit high (long-term) stability. This work advances formulation development by integrating water-excipient interactions and residual moisture content into a predictive model, moving beyond traditional empirical methods and offering a robust pathway to the design of stable biopharmaceutical formulations. This makes it possible to achieve high/favorable water activities despite low residual moisture (thus, high glass-transition temperatures) with plausible excipient concentrations and combinations.

Published

2025

4. Accessing the non-ergodicity factor of o-terphenyl via multi-line nuclear γ-resonance time-domain interferometry.

Author

Caporaletti, Federico, Chumakov, Aleksandr I., Rüffer, Rudolf, and Monaco, Giulio

Subjects

*NEUTRON scattering, *SCATTERING (Physics), *FACTOR structure, *STRUCTURAL dynamics

Abstract

Nuclear γ-resonance time-domain interferometry (TDI) was used to investigate the dynamics of the model glass-former o-terphenyl (OTP) at the μ s timescale and close to the peak of the static structure factor ( q max = 1.4 Å − 1 ) employing a recently introduced 3-lines scheme. The measured relaxation times (τ) agree with those available in the literature and confirm that in OTP the dynamics are dominated by the structural relaxation at the inter-molecular length-scale and by the Johari–Goldstein ( β J G ) relaxation at the intra-molecular one. The experimental scheme here employed presents the distinct advantage of providing access to the non-ergodicity factor ( f q ) on an absolute scale. The extracted f q values are qualitatively consistent with those derived in the previous neutron scattering experiments, with a very similar wavevector, q, and temperature dependence. Our data thus further establish the capability of multi-line TDI to measure the absolute strength of relaxation processes. [ABSTRACT FROM AUTHOR]

Published

2020

5. Bulk Metallic Glasses and Glassy/Crystalline Materials

Author

Louzguine-Luzgin, Dmitri V., Hull, Robert, Series editor, Jagadish, Chennupati, Series editor, Kawazoe, Yoshiyuki, Series editor, Osgood, Richard M., Series editor, Parisi, Jürgen, Series editor, Seong, Tae-Yeon, Series editor, Uchida, Shin-ichi, Series editor, Wang, Zhiming M., Series editor, and Zhukov, Arcady, editor

Published

2016

6. Vortex liquid entanglement in irradiated YBa_(2)Cu_(3)O_(7) thin films

Author

Sefrioui, Zouhair, Arias Serna, Diego, González Herrera, Elvira María, León Yebra, Carlos, Santamaría Sánchez-Barriga, Jacobo, Vicent López, José Luis, Sefrioui, Zouhair, Arias Serna, Diego, González Herrera, Elvira María, León Yebra, Carlos, Santamaría Sánchez-Barriga, Jacobo, and Vicent López, José Luis

Abstract

© 2001 The American Physical Society. Financial support from CICYT Grant Nos. MAT94-0604, MAT97-0675, and MAT99-1706E is acknowledged. Z.S. thanks AECI for financial support., Epitaxial YBa_(2)Cu_(3)O_(7) thin films, grown by high-pressure dc sputtering, are irradiated with He^(+) ions at 80 keV with doses between 10^(14) and 10^(15) cm^(-2). Irradiation reduces the critical temperature but it does not modify the carrier concentration. Angle-dependent resistivity is used to show that the mass anisotropy does not change upon irradiation. The melting transition in magnetic fields applied parallel to the c axis is analyzed by I-V critical scaling, and all irradiated and nonirradiated samples show a three-dimensional vortex glass transition with the same critical exponents. The dissipation in the liquid state is analyzed in terms of the activation energy of the magnetoresistance in a perpendicular magnetic field. While as-grown samples show an activation energy depending as 1/H on the applied magnetic field, irradiated samples show a dependence as 1/H^(0.5), characteristic of plastic deformation of vortices. This is discussed in terms of the point disorder introduced by ion irradiation., CICYT, AECI, Depto. de Estructura de la Materia, Física Térmica y Electrónica, Depto. de Física de Materiales, Fac. de Ciencias Físicas, TRUE, pub

Published

2023

7. Universal scaling of the conductivity relaxation in crystalline ionic conductors

Author

León Yebra, Carlos, Lucía Mulas, María Luisa, Santamaría Sánchez-Barriga, Jacobo, Sánchez Quesada, Francisco, León Yebra, Carlos, Lucía Mulas, María Luisa, Santamaría Sánchez-Barriga, Jacobo, and Sánchez Quesada, Francisco

Abstract

© 1998 The American Physical Society., We present complex admittance measurements on single-crystal yttria-stabilized zirconia and polycrystalline Li_(0.5)La_(0.5)TiO_(3) over the frequency range 5 Hz to 30 MHz and at temperatures ranging between 150 and 650 K. Electric-field relaxation in both fast ionic conductors can be described using Kohlrausch-Williams-Watts decay functions, but departures are observed at high frequencies and low temperatures. Electric modulus data obey the Dixon Nagel scaling that has been proposed to be universal in describing the relaxation processes in supercooled liquids. Our data provide broader universality to the Dixon-Nagel scaling, and are interpreted in terms of the influence of mobile ions positional disorder on the relaxation dynamics., Depto. de Estructura de la Materia, Física Térmica y Electrónica, Fac. de Ciencias Físicas, TRUE, pub

Published

2023

8. Dopant Diffusion Inhibition in Organic Field-Effect Transistors Using Organic Semiconductor/High-Molecular-Weight Polymer Blends

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Generalitat de Catalunya, China Scholarship Council, Li, Jinghai [0000-0003-1531-0514], Tortora, Luca [0000-0003-3053-2406], Mas Torrent, Marta [0000-0002-1586-005X], Li, Jinghai, Colantoni, Elisabetta, Temiño, Inés, Branchini, Paolo, Tortora, Luca, Mas Torrent, Marta, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Generalitat de Catalunya, China Scholarship Council, Li, Jinghai [0000-0003-1531-0514], Tortora, Luca [0000-0003-3053-2406], Mas Torrent, Marta [0000-0002-1586-005X], Li, Jinghai, Colantoni, Elisabetta, Temiño, Inés, Branchini, Paolo, Tortora, Luca, and Mas Torrent, Marta

Abstract

Molecular contact doping in organic field-effect transistors (OFETs) has been proved to be a very efficient strategy to reduce the device contact resistance. It consists of inserting a dopant layer between the organic semiconductor (OSC) and the top gold contacts to reduce the energy barrier required to inject/release charges. However, a main bottle-neck for its implementation is that the dopant diffuses toward the OFET channel with time, doping the OSC, and hampering the on/off switching device capability. In this work, we fabricated OFETs based on the benchmark OSC 2,7-dioctyl[1]benzothieno[3,2-b][1]benzothiophene (C8-BTBT-C8) by a solution shearing technique. First, we show that the OFET performance of these devices is significantly improved when a layer of the p-dopant 2,3,5,6-tetrafluoro-7,7,8,8-tetracyanoquinodimethane (F4TCNQ) is inserted before the evaporation of the gold source/drain contacts. Remarkably, we demonstrate that the dopant diffusion can be controlled by blending the OSC with polystyrene (PS) of different molecular weights. In-depth electrical characterization combined with studies of surface and in-depth distribution of the dopant by time-of-flight secondary ion mass spectrometry (ToF-SIMS) unambiguously show that in thin films of OSC blends with high-molecular-weight PS, the dopant remained drastically confined into the contact areas, which was reflected by an enhanced long-term device stability.

Published

2023

9. Recyclable and Reprocessable Epoxy Vitrimer Adhesives

Author

Química Analítica i Química Orgànica, Enginyeria Mecànica, Universitat Rovira i Virgili, Santiago, D; Guzman, D; Padilla, J; Verdugo, P; de la Flor, S; Serra, A, Química Analítica i Química Orgànica, Enginyeria Mecànica, Universitat Rovira i Virgili, and Santiago, D; Guzman, D; Padilla, J; Verdugo, P; de la Flor, S; Serra, A

Abstract

Epoxy-based vitrimers represent a promising option toward sustainability and circular economy in automotive structural applications. In this work, a series of vitrimer materials are presented to be used as recyclable and reprocessable adhesives for such applications. These formulations consist of diglycidyl ether of bisphenol A-anhydride systems with glutaric anhydride and glycerol as cocuring agents in several proportions and 1,5,7-triazabicyclo[4.4.0]dec-5-ene (TBD) or 1-methylimidazole (1MI) as catalysts. The materials obtained revealed relatively high Tg s, up to 85 °C, as well as a homogeneous network structure. They also showed complete stress relaxation in times as short as just 3.6 min at 180 °C. The presence of TBD in the vitrimer allows the fastest relaxation. The thermosets were recycled and reprocessed through alcoholysis and mechanical grinding. These formulations were also applied as adhesives for mono- and multimaterial joints showing values of single-lap shear stress as high as those shown by commercial adhesives. Reversible adhesion was also studied after joint failure and after debonding without failure. In summary, the materials and methodology presented here represent a comprehensive study of recyclable and reprocessable epoxy-based vitrimers.

Published

2023

10. Solid-state loading of organic molecular materials within mesoporous silica matrix: Application to ibuprofen.

Author

Malfait, B., Correia, N.T., Mussi, A., Paccou, L., Guinet, Y., and Hédoux, A.

Subjects

*MESOPOROUS silica, *IBUPROFEN, *ORGANIC solvents, *THERMOGRAVIMETRY, *PHASE transitions

Abstract

Abstract Mesoporous silica carriers have recently gained interest in the pharmaceutical domain because of their potential to significantly increase the solubility of poorly water-soluble drugs, by adsorbing the active molecule in an amorphous and relatively stable state. However, the use of organic solvents for drug loading and the limited loading capacity are real drawbacks in the context of therapeutic use. The present work shows that co-milling of porous SBA-15 matrix with the drug makes it possible the drug loading without significant damage for the structure of the matrix, enhancing thereby the capacity of loading to almost 40 wt%. Combining calorimetric, thermogravimetric, and low-frequency Raman investigations has allowed us to determine optimum conditions of loading, and to analyze the physical state, the molecular mobility and the phase transformations of the confined drug upon heating. It was shown that the physical state of ibuprofen (IBP) confined to silica carriers was amorphous between temperatures T g and T m of the bulk form of IBP. Graphical abstract Image 1 Highlights • Ibuprofen was loaded within SBA-15 by co-milling at room temperature. • Crystal - amorphous solid-state conversion is driven by confinement in 6.5 nm pores. • The loading capacity of API is about wt 40%. [ABSTRACT FROM AUTHOR]

Published

2019

11. Mechanically-Induced Solid-State Reaction for Fabrication of Soft Magnetic (Co75Ti25)100−xBx (x: 2, 5, 10, 15, 20, 25 at%) Metallic Glassy Nanopowders

Author

Mohamed Sherif El-Eskandarany and Naser Ali

Subjects

mechanical alloying, high-energy ball milling, solid-state reaction, glass-transition, crystallizations, super-cooled liquid region, Organic chemistry, QD241-441

Abstract

Metallic glasses, with their short-range order structure, exhibit unique characteristics that do not exist in the corresponding crystalline alloys with the same compositions. These unusual properties are attributed to the absence of translational periodicity, grain boundaries, and compositional homogeneity. Cobalt (Co)-based metallic glassy alloys have been receiving great attention due to their superior mechanical and magnetic properties. Unluckily, Co-Ti alloys and its based alloys are difficult to be prepared in glassy form, due to their rather poor glass-forming ability. In the present work, the mechanical alloying approach was employed to investigate the possibility of preparing homogeneous (Co75Ti25)100−xBx starting from elemental powders. The feedstock materials with the desired compositions were high-energy ball-milled under argon atmosphere for 50 h. The end products of the powders obtained after milling revealed a short-range order structure with a broad amorphization range (2 at% ≤ B ≤ 25 at%). The behaviors of these glassy systems, characterized by the supercooled liquid region, and reduced glass transition temperature, were improved upon increasing B molar fraction. The results had shown that when B content increased, the saturation magnetization was increased, where coercivity was decreased.

Published

2020

12. Relations between the sub-molecula and the cooperative scales in the molecular dynamics of the glass-forming liquids.

Author

Solunov, Hristo Aleksandrov

Subjects

*SUPERCOOLED liquids, *MOLECULAR dynamics, *THERMODYNAMICS, *HEAT capacity of liquids, *COOPERATIVE binding (Biochemistry), *MOLECULAR structure

Abstract

Abstract The molecules of the supercooled liquids in the cooperative molecular dynamics are partitioning to specific dynamic units, known as "beads". The beads have been defined as the smallest units, forming the heat capacity of the supercooled liquids. The beads appear as a sub-molecular scale in the dynamics of the glass-forming liquids. In the Adam-Gibbs theory the number of molecules, rearranging simultaneously, has been defined as the size of the cooperative rearranging region and these regions form the second larger molecular scale in molecular dynamics. Due to a noticeable discrepancy in estimating the number of beads in the molecules by the empirical rules as well as by theoretical models the relations between these two scales are not well known. Recently, a new thermodynamic method for estimating the number of the beads in the molecules and a rule for the examination of their temperature dependence have been suggested. By these methods 48 low-molecular supercooled liquids are investigated and the relations between these two molecular scales and the structure of the molecules have been found. The estimated number of configuration beads is compared with the number of the structural units (the chemical groups, the ions and the atoms), with the assigned number by the empirical rules and with the ones calculated, based on a Lennar-Jones model of the random first order transition theory. A constant and two kinds of temperature dependence of the number of the beads in the molecules of different liquids have been revealed. A molecular basis, forming the fragility of the supercooled liquids, has been found. From the results obtained, the investigated liquids are classified in several groups following the logical line in the formation of the beads. Highlights • The molecules in the dynamics of glass-forming liquids are partitioning to the beads. • The number of the beads in the molecules and in the cooperative regions are estimated. • By these estimations a new insight into the dynamics of the liquids has been provided. [ABSTRACT FROM AUTHOR]

Published

2019

13. Dielectric and rheological study of the molecular dynamics during the cure of an epoxy resin.

Author

Chaloupka, Alexander, Pflock, Tobias, Horny, Robert, Rudolph, Natalie, and Horn, Siegfried R.

Subjects

*EPOXY resins, *DIELECTRIC depolarization, *POLYMERS, *POLYMERIZATION, *ELECTRIC conductivity

Abstract

ABSTRACT: Composite manufacturing is currently one of the most challenging processes for industrial lightweight applications. To date, the process conditions for polymer‐based composite manufacturing are evaluated by laboratory measurements: usually, the flow behavior and the curing of the polymer matrix material are characterized by rheology and quality assurance is performed by thermo‐physical analysis in postprocess measurements. In contrast a dielectric in‐mold sensor offers the possibility to measure the real‐time behavior of the polymer during processing. This study focuses on the correlation of simultaneous rheological and dielectric measurements on Hexcel RTM6 using a coupled setup of both techniques. For dielectric measurements a reusable in‐mold sensor was used and a calibration, taking into account the cable response, was performed. The results show good agreement with respect to glass‐transition temperature and the gel‐point. This can be understood by the fluctuation–dissipation theorem that explicitly relates molecular dynamics to the macromolecular mechanical properties under dynamic time‐dependent load. Furthermore, it was found that the dynamic viscosity can directly be related to the electrical conductivity. This proves the high potential of dielectric analysis as online‐capable technique for material characterization during composite manufacturing. © 2018 Wiley Periodicals, Inc. J. Polym. Sci., Part B: Polym. Phys. 2018, 56, 907–913 [ABSTRACT FROM AUTHOR]

Published

2018

14. Toposelective vapor deposition of hybrid and inorganic materials inside nanocavities by polymeric templating and vapor phase infiltration

Author

Ville A. Lovikka, Konsta Airola, Emily McGuinness, Chao Zhang, Marko Vehkamäki, Marianna Kemell, Mark Losego, Mikko Ritala, Markku Leskelä, Department of Chemistry, and Mikko Ritala / Principal Investigator

Subjects

pore filling, 119 Other natural sciences, GLASS-TRANSITION, 116 Chemical sciences, Bioengineering, infiltration, CONTRACTION, nanocomposites, STRENGTH, METAL-OXIDES, General Materials Science, POLY(METHYL METHACRYLATE), TEMPERATURE, TRIMETHYLALUMINUM, NANOSTRUCTURE, General Engineering, polymer chemistry, General Chemistry, Vapor deposition, Atomic and Molecular Physics, and Optics, Chemical Vapor Deposition, thin films, Atomic Layer Deposition, nanoparticles, Hybrid materials, vapor phase infiltration, 221 Nano-technology, NUCLEATION

Abstract

Selective deposition of hybrid and inorganic materials inside nanostructures could enable major nanotechnological advances. However, inserting ready-made composites inside nanocavities may be difficult, and therefore, stepwise approaches are needed. In this paper, a poly(ethyl acrylate) template is grown selectively inside cavities via condensation-controlled toposelective vapor deposition, and the polymer is then hybridized by alumina, titania, or zinc oxide. The hybridization is carried out by infiltrating the polymer with a vapor-phase metalorganic precursor and water vapor either via a short-pulse (atomic layer deposition, ALD) or a long-pulse (vapor phase infiltration, VPI) sequence. When the polymer-MOx hybrid material is calcined at 450 degrees C in air, an inorganic phase is left as the residue. Various suspected confinement effects are discussed. The infiltration of inorganic materials is reduced in deeper layers of the cavity-grown polymer and is dependent on the cavity geometry. The structure of the inorganic deposition after calcination varies from scattered particles and their aggregates to cavity-capping films or cavity-filling low-density porous deposition, and the inorganic deposition is often anisotropically cracked. A large part of the infiltration is achieved already during the short-pulse experiments with a commercial ALD reactor. Furthermore, the infiltrated polymer is more resistant to dissolution in acetone whereas the inorganic component can still be heavily affected by phosphoric acid.

Published

2022

15. How do packing defects modify the cooperative motions in supercooled liquids?

Author

Taamalli, Sonia, Belmabrouk, Hafedh, Van Hoang, Vo, and Teboul, Victor

Subjects

*SUPERCOOLED liquids, *GLASS transitions, *MOLECULAR dynamics, *MOLECULAR probes, *ISOMERIZATION

Abstract

We use molecular dynamic simulations to investigate the relation between the presence of packing defects in a glass-former and the spontaneous cooperative motions called dynamic heterogeneity. For that purpose we use a simple diatomic glass-former and add a small number of larger or smaller diatomic probes. The diluted probes modify locally the packing, inducing structural defects in the liquid, while we find that the number of defects is small enough not to disturb the average structure. We find that a small packing modification around a few molecules can deeply influence the dynamics of the whole liquid, when supercooled. When we use small probe molecules, the dynamics accelerates and the dynamic heterogeneity decreases. In contrast, for large probes the dynamics slows down and the dynamic heterogeneity increases. The induced heterogeneities and transport coefficient modification increase when the temperature decreases and disappear around the onset temperature of the cage dynamics. [ABSTRACT FROM AUTHOR]

Published

2017

16. Microscopic investigation of the Johari-Goldstein relaxation in cumene: Insights on the mosaic structure in a van der Waals liquid.

Author

Caporaletti, Federico, Capaccioli, Simone, Bessas, Dimitrios, Chumakov, Aleksander I., Martinelli, Alessandro, and Monaco, Giulio

Subjects

*CUMENE, *SUPERCOOLED liquids, *MOLECULAR interactions, *INVESTIGATION reports, *LIQUIDS, *INELASTIC scattering

Abstract

The Johari-Goldstein (β J G) relaxation anticipates in time, and is closely connected to, the structural relaxation in deeply supercooled liquids. Probing its microscopic properties is a crucial step for a complete understanding of the glass-transition. We here report the investigation of the van der Waals glass-former cumene using time-domain interferometry, a technique able to probe microscopic density fluctuations at the spatial and temporal scales relevant for the β J G -relaxation. We find that the molecules participating in it undergo a restricted motion, though sufficient to induce local, cage-breaking events at the characteristic time-scale for molecular re-orientations. A detailed characterization of the relaxation strength, i.e. the fraction of molecules involved in the relaxation process, shows that such molecules are connected in a percolating cluster which, above the glass-transition temperature, T g , is weakly dependent on temperature. Our results confirm thus previous observations of a mosaic structure associated to the β J G -relaxation in the supercooled state, and provide additional information on its temperature evolution above the glass-transition temperature. We conclude that the observed microscopic properties of the β J G -relaxation, and thus of the associated mosaic structure, are generic and independent of the molecular interaction potential. In addition, we show that, while the dynamics within the percolating cluster becomes progressively slower on approaching T g , the fraction of the molecules involved in cage-breaking events within the β J G -relaxation is not affected by temperature. • The Johari-Goldstein relaxation of cumene is studied by nuclear γ -resonance time-domain interferometry. • The microscopic properties of the Johari-Goldstein relaxation are shown to be independent of the interaction potential. • The "mosaic structure" associated to the Johari-Goldstein relaxation is weakly dependent on temperature. [ABSTRACT FROM AUTHOR]

Published

2023

17. Relaxation in networks strained in the glass-transition regime

Author

Kilian, H. G., Kraus, V., Kremer, F., editor, Lagaly, G., editor, Kilian, H. -G., editor, and Pietralla, M., editor

Published

1994

18. On limitations of the viscosity versus temperature plot for glass-forming substances.

Author

Louzguine-Luzgin, Dmitri V., Louzguina-Luzgina, Larissa V., and Fecht, Hans

Subjects

*MEASUREMENT of viscosity, *GLASS transitions, *HIGH pressure (Science), *CRITICAL temperature, *ARRHENIUS equation, *SUPERCRITICAL fluids

Abstract

The plot scaling of viscosity by the reduced temperature as an important and vivid representation of the liquid fragility property has been utilized by materials scientists for more than four decades. In the present manuscript we discuss practical limitations on the high temperature part of the viscosity plot. It is valid up to the boiling point at pressure ranges from the triple point to the critical pressure and nearly up to the critical temperature at high pressure. Although, the high temperature viscosity estimation at T → ∞ is rather a result of overestimation of an Arrhenius or VFTH equitation fitting and does not have a physical meaning more attention is required to shed light on the behavior of glass-forming liquids in this temperature range by taking into account the supercritical liquid phenomenon. [ABSTRACT FROM AUTHOR]

Published

2016

19. Low-melting phthalonitrile thermosetting monomers with siloxane- and phosphate bridges.

Author

Bulgakov, B.A., Babkin, A.V., Dzhevakov, P.B., Bogolyubov, A.A., Sulimov, A.V., Kepman, A.V., Kolyagin, Yu.G., Guseva, D.V., Rudyak, V.Yu., and Chertovich, A.V.

Subjects

*BENZENEDICARBONITRILE, *MONOMERS, *SILOXANES, *MELTING, *THERMOSETTING polymers, *PHOSPHATES

Abstract

The series of low-melting siloxane- and phosphate-bridged phthalonitriles are studied. The monomers of this type possess glass transition temperatures more than 100 °C lower than for common phthalonitriles. Based on the collected experimental data molecular dynamics simulations aimed to predict glass-transition temperatures of the considered types of low-melting phthalonitriles are reported. The validity of computational model is confirmed by successful synthesis of the new monomers, e.g. phosphate- and phosphonate-bridged phthalonitriles are introduced for a first time. Cured Bis(3-(3,4-dicyanophenoxy)phenyl) phenyl phosphate demonstrates thermal performance featured to phthalonitriles (HDT ∼ 450 °C, T 5% = 524 °C, Y c , (Ar) = 80%) along with increased thermo-oxidative stability. In aggregate with convenient processing the considered phthalonitriles can be used as high-temperature matrices for fiber-reinforced plastics production by vacuum infusion or RTM techniques. [ABSTRACT FROM AUTHOR]

Published

2016

20. Effect of headspace gas on nucleation of amorphous paracetamol

Author

Emmi Palomäki, Jouko Yliruusi, Henrik Ehlers, Faculty of Pharmacy, Divisions of Faculty of Pharmacy, and Drug Research Program

Subjects

DYNAMICS, Materials science, GLASS-TRANSITION, Analytical chemistry, Nucleation, Pharmaceutical Science, chemistry.chemical_element, 02 engineering and technology, FORMS, 030226 pharmacology & pharmacy, law.invention, 03 medical and health sciences, Crystallinity, chemistry.chemical_compound, 0302 clinical medicine, RAMAN-SPECTROSCOPY, law, SURFACE CRYSTALLIZATION, WATER, Crystallization, Inert gas, Recrystallization (metallurgy), 021001 nanoscience & nanotechnology, Nitrogen, STATE, Amorphous solid, PHYSICAL STABILITY, Paracetamol, INDOMETHACIN, chemistry, MOBILITY, 317 Pharmacy, 13. Climate action, Raman spectroscopy, Carbon dioxide, Amorphism, Sorption, 0210 nano-technology

Abstract

In this paper, the effect of the gaseous environment on recrystallization of amorphous paracetamol was investigated. The experiments were conducted with a headspace gas consisting of dry air, dry carbon dioxide, dry nitrogen and humid air in four temperatures ranging from 5 degrees C below onset of T-g to 5 degrees C above onset of T-g. The recrystallization was monitored using Raman spectroscopy and subsequent multivariate analysis. In temperatures below onset of T-g, the presence of oxygen delayed the onset of recrystallization, with an increasing delay with lower temperature. When comparing samples exposed to dry headspace gases, the crystallization was fastest below onset of Tg when exposed to nitrogen. Being an inert gas, nitrogen did not seem to interfere with the molecules allowing them to freely find their inherent arrangement, whereas the presence of oxygen delayed the formation of stabile nuclei. Above onset of T-g, no differences in onset of crystallization was detected between dry gas atmospheres. Amorphous paracetamol crystallized to form II in all measurements and the samples did not reach full crystallinity within the duration of the experiments. The results show that the headspace gas has an effect on nucleation in the amorphous sample.

Published

2019

21. Symmetry versus asymmetry: Synthesis and studies of benzotriindole-derived carbazoles displaying different electrochemical and optical properties.

Author

Reghu, Renji R., Volyniuk, Dmytro, Kostiv, Nataliya, Norvaisa, Karolis, and Grazulevicius, Juozas V.

Subjects

*INDOLE, *HETEROCYCLIC compounds synthesis, *ASYMMETRY (Chemistry), *SYMMETRY (Physics), *CARBAZOLE, *ELECTROCHEMISTRY, *OPTICAL properties

Abstract

Symmetrically and asymmetrically derived benzotriindole (diindolocarbazole) cores and their triply functionalized carbazolyl derivatives were synthesized and characterized. The synthesized compounds showed relatively high glass-transition temperatures. Carbazolyl substitutions at the periphery of benzotriindole cores improved their glass-forming ability as well as the thermal stability. Asymmetric benzotriindoles showed red-shifted absorption and emission spectra. Relatively decreased optical band gaps of the asymmetric derivatives suggested pronounced electronic communication between the indole segments and more effective π-conjugation in these derivatives. Oxidative redox profiles were distinct for differently linked benzotriindoles as characterized by cyclic voltammetry. Asymmetric benzotriindoles oxidized at comparatively lower potential and facilitated electropolymerization. Ionization potentials of thin films of the benzotriindole derivatives measured by photoelectron spectroscopy ranged from 4.95 to 5.43 eV. The method of charge extraction by linearly increasing voltage unlocked the hole-transport in both the symmetric and asymmetric benzotriindoles. Symmetric nature of benzotriindoles promoted the hole-transport in thin films. [ABSTRACT FROM AUTHOR]

Published

2016

22. Effect of pyrochemical chloride waste loading on thermo-physical properties of borosilicate glass bonded Sr-chloroapatite composites.

Author

Jena, Hrudananda, Maji, Binoy Kumar, Asuvathraman, R., and Kutty, K.V.Govindan

Subjects

*CHLORIDES, *BOROSILICATES, *APATITE, *METALLIC composites, *SOLID state chemistry, *CHEMICAL reactions

Abstract

Borosilicate glass (BSG) bonded composites of Sr-chloroapatite (SrApCl) and its simulated pyrochemical waste loaded compositions were synthesized by solid state reaction route. These compositions were characterized by XRD and SEM. Percentage (%) thermal expansion of the composites was measured by high temperature XRD (HT-XRD) and dilatometry. 10–16 wt.% waste loaded composites show minor variations in % linear expansion at 298–900 K. The composite with 10 wt.% waste loading and without BSG encapsulation exhibited slightly higher % of expansion compared to other compositions above 700 K. The coefficient of thermal expansion ( α m ) measured by HTXRD and dilatometry are found to be of the same order of magnitude. The % expansion measured by dilatometry shows higher values for waste loaded compositions compared to SrApCl; whereas values measured by HTXRD show a decreasing trend with respect to pristine SrApCl. The instantaneous coefficient of thermal expansion ( α i ) is used to determine the glass transition temperature (T g ) of the glass-bonded composites from the dilatometry data. The α i measured by HTXRD for the composites ranges from 2.40(1) × 10 −7 to 9.51(2) × 10 −6 K −1 along a -axis, 9.28(1) × 10 −8 to 7.68(1) × 10 −6 K −1 along c -axis and. α m measured by dilatometry ranges from 3.80(1) × 10 −7 to 13.14(1) × 10 −6 K −1 . [ABSTRACT FROM AUTHOR]

Published

2015

23. Light scattering investigation of a slow relaxation process of boric oxide in the glass-transition region.

Author

Bokov, N.

Subjects

*LIGHT scattering, *GLASS transitions, *PHASE transitions, *GLASS transition temperature, *GLASS

Abstract

The data on the relaxation process of the polarized V component of the integral intensity of light scattering in glassy boric oxide at 320°C are presented. It was shown that the variations of the intensities were adequately described by the exponential function on time. The relaxation time of intensity was found to be equal about 50 min which far exceeds the expected times of structural relaxation at this temperature. The increase of both polarized and depolarized components of light scattering intensity in the process of low-temperature annealing of glass at 200°C was presumably related to the development of elastic stress in the sample volume. [ABSTRACT FROM AUTHOR]

Published

2015

24. Synthesis and properties of hole-transporting triphenylamine-derived dendritic compounds.

Author

Reghu, Renji R., Simokaitiene, Jurate, Grazulevicius, Juozas V., Raisys, Steponas, Kazlauskas, Karolis, Jursenas, Saulius, Jankauskas, Vygintas, and Reina, Antonio

Subjects

*TRIPHENYLAMINE, *DENDRIMERS synthesis, *PHENYL compounds, *SUBSTITUENTS (Chemistry), *PHOTOELECTRIC effect

Abstract

Materials based on triphenylamino core linked with different alkoxyphenyl-substituents through olefinic spacers were synthesised, and their thermal, photophysical and photoelectrical properties were investigated. The synthesized compounds showed relatively good thermal stability. Derivatives containing shorter alkyl chains displayed glass-forming ability, while the compounds containing flexible alkyl termini demonstrated liquid-crystalline behaviour. Flexible alkyl substituents at the periphery of triphenylamine derivatives prevented the close packing of chromophores and hence, they showed relatively similar absorption and fluorescence in thin-films and solutions. Reduction in fluorescence quantum yield in thin-films upon decreasing the size of peripheral alkyl substituents confirmed enhanced intermolecular interactions and in turn, suggested migration-induced exciton quenching at nonradiative decay sites. Ionization potentials of thin solid layers estimated by photoelectron emission spectroscopy ranged from 5.21 to 5.47 eV. Hole-drift mobility of ethyl substituted triphenylamine measured using xerographic time-of-flight (XTOF) method was 1.3 × 10 −3 cm 2 V −1 s −1 at an electric field of 10 6 Vcm −1 . [ABSTRACT FROM AUTHOR]

Published

2015

25. A simple diatomic potential that prevents crystallization in supercooled liquids simulations.

Author

Kerasidou, A.P., Mauboussin, Y., and Teboul, V.

Subjects

*DIATOMIC molecules, *CRYSTALLIZATION kinetics, *CHEMICAL kinetics, *SUPERCOOLED liquids, *SUPERCOOLING

Abstract

We study a simple and versatile diatomic potential function coined to prevent crystallization in supercooled liquids. We show that the corresponding liquid does not crystallize even with very long simulation runs at the lowest temperature that we can access with ergodic simulations. The medium displays the usual features of supercooled materials and a non-Arrhenius dependence of the diffusion coefficient and α relaxation time with temperature. We also observe the breakdown of the Stokes–Einstein relation at low temperatures. [ABSTRACT FROM AUTHOR]

Published

2015

26. Controlling surface effects in extremely high aspect ratio gold plasmonic electrodes

Author

Marco Riccardi, Christian Santschi, and Olivier J.F. Martin

Subjects

alkylsiloxane monolayers, temperature, metals, self -assembled monolayers, Condensed Matter Physics, deposition, plasmonics, Atomic and Molecular Physics, and Optics, octadecylsiloxane monolayers, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, adhesion layers, nanostructures, glass-transition, Electrical and Electronic Engineering, nanorods, surface forces, ultrathin

Abstract

Nanofabrication is key to many technological advances, especially the challenge of merging nanophotonics with electronics. Here, we investigate the fabrication process of plasmonic interdigitated gold electrodes having a very high aspect ratio (i.e. long and thin geometries) and a large surface area. Stringent stability issues that arise when these structures are fabricated using inorganic adhesion layers, such as titanium or chromium, on silica substrates are highlighted. We ascribe these problems to thermodynamical non-equilibrium states of freshly deposited gold and, in particular, discuss the role of surface energy in determining the structural properties of high aspect ratio gold nanostructures. We then show that the use of organic silane self-assembled monolayers improves the long term stability of these structures and, finally, characterize the fabricated electrodes. This technology can unleash the potential of hybrid optoelectronic circuits where current and light are manipulated with the same component.

Published

2022

27. Comparing secondary organic aerosol (SOA) volatility distributions derived from isothermal SOA particle evaporation data and FIGAERO–CIMS measurements

Author

Tikkanen, Olli-Pekka, Buchholz, Angela, Ylisirniö, Arttu, Schobesberger, Siegfried, Virtanen, Annele, Yli-Juuti, Taina, Department of Agricultural Sciences, and Institute for Atmospheric and Earth System Research (INAR)

Subjects

MODEL, ALPHA-PINENE OZONOLYSIS, MASS-SPECTROMETER, GLASS-TRANSITION, MOLECULAR COMPOSITION, PHASE STATE, POSITIVE MATRIX FACTORIZATION, TEMPERATURE, 114 Physical sciences, HIGH-RESOLUTION, VISCOSITY

Abstract

The volatility distribution of the organic compounds present in secondary organic aerosol (SOA) at different conditions is a key quantity that has to be captured in order to describe SOA dynamics accurately. The development of the Filter Inlet for Gases and AEROsols (FIGAERO) and its coupling to a chemical ionization mass spectrometer (CIMS; collectively FIGAERO-CIMS) has enabled near-simultaneous sampling of the gas and particle phases of SOA through thermal desorption of the particles. The thermal desorption data have been recently shown to be interpretable as a volatility distribution with the use of the positive matrix factorization (PMF) method. Similarly, volatility distributions can be inferred from isothermal particle evaporation experiments when the particle size change measurements are analyzed with process-modeling techniques. In this study, we compare the volatility distributions that are retrieved from FIGAERO-CIMS and particle size change measurements during isothermal particle evaporation with process-modeling techniques. We compare the volatility distributions at two different relative humidities (RHs) and two oxidation conditions. In high-RH conditions, where particles are in a liquid state, we show that the volatility distributions derived via the two ways are similar within a reasonable assumption of uncertainty in the effective saturation mass concentrations that are derived from FIGAERO-CIMS data. In dry conditions, we demonstrate that the volatility distributions are comparable in one oxidation condition, and in the other oxidation condition, the volatility distribution derived from the PMF analysis shows considerably more high-volatility matter than the volatility distribution inferred from particle size change measurements. We also show that the Vogel-Tammann-Fulcher equation together with a recent glass transition temperature parametrization for organic compounds and PMF-derived volatility distribution estimates are consistent with the observed isothermal evaporation under dry conditions within the reported uncertainties. We conclude that the FIGAERO-CIMS measurements analyzed with the PMF method are a promising method for inferring the volatility distribution of organic compounds, but care has to be taken when the PMF factors are analyzed. Future process-modeling studies about SOA dynamics and properties could benefit from simultaneous FIGAERO-CIMS measurements.

Published

2020

28. Direct observation of desorption of a melt of long polymer chains

Author

Daniele Cangialosi, Xavier Monnier, Simone Napolitano, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), European Commission, and Fonds de la Recherche Scientifique (Fédération Wallonie-Bruxelles)

Subjects

0301 basic medicine, Materials science, Thermodynamic state, Polymers, Annealing (metallurgy), Science, Chemical physics, Enthalpy, General Physics and Astronomy, Thermodynamics, 02 engineering and technology, Article, General Biochemistry, Genetics and Molecular Biology, law.invention, 03 medical and health sciences, Adsorption, law, Desorption, Chimie, Crystallization, lcsh:Science, chemistry.chemical_classification, Multidisciplinary, Physique, food and beverages, General Chemistry, Polymer, Astronomie, 021001 nanoscience & nanotechnology, Technologie de l'environnement, contrôle de la pollution, 030104 developmental biology, chemistry, adsorption, kinetics, glass-transition, lcsh:Q, layers, 0210 nano-technology, Glass transition

Abstract

Tuning the thermodynamic state of a material has a tremendous impact on its performance. In the case of polymers placed in proximity of a solid wall, this is possible by annealing above the glass transition temperature, Tg, which induces the formation of an adsorbed layer. Whether heating to higher temperatures would result in desorption, thereby reverting the thermodynamic state of the interface, has so far remained elusive, due to the interference of degradation. Here, we employ fast scanning calorimetry, allowing to investigate the thermodynamics of the interface while heating at 104 K s−1. We show that applying such rate to adsorbed polymer layers permits avoiding degradation and, therefore, we provide clear-cut evidence of desorption of a polymer melt. We found that the enthalpy and temperature of desorption are independent of the annealing temperature, which, in analogy to crystallization/melting, indicates that adsorption/desorption is a first order thermodynamic transition., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2020

29. Mechanically-Induced Solid-State Reaction for Fabrication of Soft Magnetic (Co75Ti25)100−xBx (x: 2, 5, 10, 15, 20, 25 at%) Metallic Glassy Nanopowders

Author

Naser Ali and Mohamed Sherif El-Eskandarany

Subjects

Materials science, Pharmaceutical Science, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, Mole fraction, Condensed Matter::Disordered Systems and Neural Networks, 01 natural sciences, mechanical alloying, Analytical Chemistry, Metal, lcsh:QD241-441, thermodynamics, Condensed Matter::Materials Science, lcsh:Organic chemistry, Drug Discovery, high-energy ball milling, Physical and Theoretical Chemistry, Supercooling, crystallizations, Amorphous metal, Organic Chemistry, Coercivity, 021001 nanoscience & nanotechnology, 0104 chemical sciences, chemistry, Chemical engineering, Chemistry (miscellaneous), solid-state reaction, visual_art, visual_art.visual_art_medium, glass-transition, Molecular Medicine, Grain boundary, super-cooled liquid region, 0210 nano-technology, Glass transition, Cobalt

Abstract

Metallic glasses, with their short-range order structure, exhibit unique characteristics that do not exist in the corresponding crystalline alloys with the same compositions. These unusual properties are attributed to the absence of translational periodicity, grain boundaries, and compositional homogeneity. Cobalt (Co)-based metallic glassy alloys have been receiving great attention due to their superior mechanical and magnetic properties. Unluckily, Co-Ti alloys and its based alloys are difficult to be prepared in glassy form, due to their rather poor glass-forming ability. In the present work, the mechanical alloying approach was employed to investigate the possibility of preparing homogeneous (Co75Ti25)100&minus, xBx starting from elemental powders. The feedstock materials with the desired compositions were high-energy ball-milled under argon atmosphere for 50 h. The end products of the powders obtained after milling revealed a short-range order structure with a broad amorphization range (2 at% &le, B &le, 25 at%). The behaviors of these glassy systems, characterized by the supercooled liquid region, and reduced glass transition temperature, were improved upon increasing B molar fraction. The results had shown that when B content increased, the saturation magnetization was increased, where coercivity was decreased.

Published

2020

30. Toward Sustainable PLA-Based Multilayer Complexes with Improved Barrier Properties

Author

Roberta Pasquarelli, Stéphane Fontaine, Aurélie Lagorce-Tachon, Jeancarlo R. Rocca-Smith, Véronique Aguié-Béghin, Frédéric Debeaufort, Jérôme Rousseau, Thomas Karbowiak, Université Bourgogne Franche-Comté [COMUE] (UBFC), Procédés Alimentaires et Microbiologiques [Dijon] (PAM), Université Bourgogne Franche-Comté [COMUE] (UBFC)-Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement, Département de Recherche en Ingénierie des Véhicules pour l'Environnement [Nevers] (DRIVE), Université Bourgogne Franche-Comté [COMUE] (UBFC)-Université de Bourgogne (UB), Fractionnement des AgroRessources et Environnement (FARE), Université de Reims Champagne-Ardenne (URCA)-Institut National de la Recherche Agronomique (INRA), Département Génie biologique [IUT de Dijon/Auxerre - université de Bourgogne], Institut Universitaire de Technologie - Dijon/Auxerre (IUT Dijon), Université de Bourgogne (UB)-Université de Bourgogne (UB), Physico-Chimie de l'Aliment et du Vin (PCAV), Université Bourgogne Franche-Comté [COMUE] (UBFC)-Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Université Bourgogne Franche-Comté [COMUE] (UBFC)-Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement, European Social Fund-Friuli Venezia Giulia Region-Operational Program 2007/2013 FP1340303009, University Italo-Francese C2-64 Regional Council of Bourgogne-Franche Comte, Fonds Europeen de Developpement Regional (FEDER), Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Université Bourgogne Franche-Comté [COMUE] (UBFC), Université de Bourgogne (UB)-Université Bourgogne Franche-Comté [COMUE] (UBFC), Fractionnement des AgroRessources et Environnement - UMR-A 614 (FARE), Université de Reims Champagne-Ardenne (URCA)-Institut National de la Recherche Agronomique (INRA)-SFR Condorcet, Université de Reims Champagne-Ardenne (URCA)-Université de Picardie Jules Verne (UPJV)-Centre National de la Recherche Scientifique (CNRS)-Université de Reims Champagne-Ardenne (URCA)-Université de Picardie Jules Verne (UPJV)-Centre National de la Recherche Scientifique (CNRS), Institut Universitaire de Technologie - IUT Dijon/Auxerre, Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Université Bourgogne Franche-Comté [COMUE] (UBFC)-Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Université Bourgogne Franche-Comté [COMUE] (UBFC), Laboratoire de Physique et Mécanique Textiles (LPMT), Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-ENSITM-Matériaux et nanosciences d'Alsace, and Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)

Subjects

plastic material, Corona treatment, [SDV]Life Sciences [q-bio], General Chemical Engineering, Hot-pressing, Wheat gluten, emballage alimentaire, 02 engineering and technology, Hot pressing, 01 natural sciences, OXYGEN, [SPI]Engineering Sciences [physics], CARBON-DIOXIDE, chemistry.chemical_compound, Surface modification, Polylactic acid, Coating, ComputingMilieux_MISCELLANEOUS, POLY(LACTIC ACID), Spin coating, sustainable development, plastique, ANTIMICROBIAL PROPERTIES, 021001 nanoscience & nanotechnology, Food packaging, développement durable, Biobased and biodegradable polymers, 0210 nano-technology, Materials science, WATER-VAPOR BARRIER, GLASS-TRANSITION, PROTEIN ISOLATE, Nanotechnology, engineering.material, FILMS, 010402 general chemistry, 12. Responsible consumption, Poly(lactic acid) PLA, Environmental Chemistry, EFFICIENT GAS, Renewable Energy, Sustainability and the Environment, POLYLACTIC ACID, High-pressure homogenization, General Chemistry, 0104 chemical sciences, chemistry, engineering, acide lactique

Abstract

Poly(lactic acid) or PLA is currently considered as one of the most promising substitutes of conventional plastics, with low environmental impact, especially for food packaging applications. Nevertheless, some drawbacks, such as high permeability to oxygen, are still limiting its industrial applications. The objective of this study was to highly increase the oxygen barrier performance of PLA without compromising its sustainable nature and following the principles of circular economy perspective. Coproducts coming from mill industries, such as wheat gluten proteins (WG), were used to produce PLA-WG-PLA multilayer complexes with improved barrier performance. Different technologies of industrial interest were considered: high-pressure homogenization of WG film forming dispersions, corona treatment of industrial PLA films, wet casting and spin coating for tailoring the WG coating thickness, and hot-pressing for shaping the multilayers. The impact of all these strategies on the properties (surface and bulk) and performances (barrier and adhesion) were investigated on the single constituent layers as well as on the final laminate. The most efficient complex increased more than 20 times (or 2000%) the barrier properties to oxygen and ∼20% the barrier properties to water vapor, considering application conditions (50% relative humidity and 25 °C). The low thickness (∼60 μm) of this complex also matched the requirement for flexible packaging applications. High-pressure homogenization, WG coating thickness, and hot-pressing positively and highly impacted the final properties of the multilayer, while the contribution of corona treatment was limited. This study unambiguously evidenced the potential of PLA-WG-PLA complexes as a valid sustainable substitute for high performing conventional plastics, and it could open an unexplored PLA market opportunity. In addition, it could motivate further investigations on PLA-based laminates for industrial interest, using other biopolymers from agro-industrial waste or byproducts.

Published

2019

31. Phase selectivity triggered by nanoconfinement: the impact of corral dimensions

Author

Lander Verstraete, Kazukuni Tahara, Brandon E. Hirsch, Ana M. Bragança, Oleksandr Ivasenko, Yoshito Tobe, Yi Hu, and Steven De Feyter

Subjects

Materials science, Chemistry, Multidisciplinary, GLASS-TRANSITION, CONFINEMENT, FILMS, 010402 general chemistry, 01 natural sciences, LAYERS, Catalysis, law.invention, law, SOLID INTERFACE, Phase (matter), Materials Chemistry, Molecule, TEMPERATURE, Science & Technology, HEXADECANE, 010405 organic chemistry, Metals and Alloys, General Chemistry, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, ONE BUILDING-BLOCK, Chemistry, Molecular network, Chemical physics, Physical Sciences, Ceramics and Composites, CRYSTALLIZATION, Scanning tunneling microscope, Selectivity, BEHAVIOR

Abstract

By using a novel protocol to spatially confine molecules in well-defined small 2D areas, the so-called nanocorrals, we show using scanning tunneling microscopy (STM) how this kind of confinement affects self-assembled molecular network (SAMN) formation at a liquid-solid interface. The 2D lateral confinement, imposed by the size of the nanocorrals, has a clear impact on the phase selectivity of a molecule that can form both low-density and high-density SAMNs, the high-density phase being promoted by the confinement. ispartof: CHEMICAL COMMUNICATIONS vol:55 issue:15 pages:2226-2229 ispartof: location:England status: published

Published

2019

32. Investigation of the nanoscale morphology in industrially relevant clearcoats of waterborne polymer colloids by means of variable-angle-grazing incidence small-angle X-ray scattering

Author

Qi Chen, Gert H. ten Brink, Giuseppe Portale, Daniel Hermida-Merino, Jurgen Scheerder, Apostolos Vagias, Macromolecular Chemistry & New Polymeric Materials, and Nanostructured Materials and Interfaces

Subjects

LATEX FILM FORMATION, Materials science, Nanostructure, Polymers and Plastics, nanostructure, SURFACE, GLASS-TRANSITION, engineering.material, variable-angle GISAXS, chemistry.chemical_compound, Coating, DEFORMATION, PARTICLES, glass transition, Composite material, GISAXS, chemistry.chemical_classification, COPOLYMER THIN-FILMS, PAINT, Scattering, Small-angle X-ray scattering, Process Chemistry and Technology, Organic Chemistry, Polymer, acrylics, chemistry, slot-die coating, SIMULATION, engineering, POLYSTYRENE, Grazing-incidence small-angle scattering, annealing, Particle size, Polystyrene, AFM, waterborne polymer coatings

Abstract

Soft polymer colloidal water suspensions are extremely important formulations for industrial applications such as water-based environmental-friendly coatings, paints, and adhesives. Homogeneity of the final coating at the micrometer and nanoscale is a crucial factor for optimal coating performance, such as barrier properties against solvent permeation. Here, we investigated the remnant nanostructure in slot-die-coated micrometer-sized thick clear coating films (clearcoats) of three different waterborne polymer colloids (pure soft, pure hard, and soft/hard multiphase), commonly utilized as primers in paint formulations [Mader et al. Prog. Org. Coat. 2011, 71, 123-135], using variable-angle grazing incidence small-angle X-ray scattering (GISAXS) complemented with cross-sectional atomic force microscopy (cs-AFM). After complete macroscopic drying, the coating films exhibit the presence of residual nanostructure with characteristic distance (d*) smaller than the original particle size and even smaller (<< d*) heterogeneity dimensions. These nanostructural heterogeneities (i) develop due to partial particle coalescence, (ii) are preferentially located close to the air-film interface and (iii) demonstrate the tendency to align perpendicular to the air-film interface, implying vertical gradient in hydroplasticization effects having occurred earlier during film formation. The extent and size of the nanostructural heterogeneities, driven by the slot-die coating application, strongly depend on the polymer chemistry (glass transition temperature, T-g) and the colloidal architecture. Last, solvent exposure has a significant impact on the nanostructure, causing the removal of these heterogeneities and leading to a more strongly coalesced film.

Published

2019

33. Fluid-solid phase transition of n-alkane mixtures: Coarse-grained molecular dynamics simulations and diffusion-ordered spectroscopy nuclear magnetic resonance

Author

Shahruddin, S, Jimenez-Serratos, G, Britovsek, G, Matar, O, Muller, E, and Petronas Research Sdn. Bhd.

Subjects

WAX PRECIPITATION, Science & Technology, GLASS-TRANSITION, lcsh:R, lcsh:Medicine, DSC, MECHANISMS, Multidisciplinary Sciences, MODEL, LONG, GAMMA FORCE-FIELD, LIQUIDS, Science & Technology - Other Topics, lcsh:Q, HYDROCARBONS, lcsh:Science, TEMPERATURE

Abstract

Wax appearance temperature (WAT), defined as the temperature at which the first solid paraffin crystal appears in a crude oil, is one of the key flow assurance indicators in the oil industry. Although there are several commonly-used experimental techniques to determine WAT, none provides unambiguous molecular-level information to characterize the phase transition between the homogeneous fluid and the underlying solid phase. Molecular Dynamics (MD) simulations employing the statistical associating fluid theory (SAFT) force field are used to interrogate the incipient solidification states of models for long-chain alkanes cooled from a melt to an arrested state. We monitor the phase change of pure long chain n-alkanes: tetracosane (C24H50) and triacontane (C30H62), and an 8-component surrogate n-alkane mixture (C12-C33) built upon the compositional information of a waxy crude. Comparison to Diffusion Ordered Spectroscopy Nuclear Magnetic Resonance (DOSY NMR) results allows the assessment of the limitations of the coarse-grained models proposed. We show that upon approach to freezing, the heavier components restrict their motion first while the lighter ones retain their mobility and help fluidize the mixture. We further demonstrate that upon sub-cooling of long n-alkane fluids and mixtures, a discontinuity arises in the slope of the self-diffusion coefficient with decreasing temperature, which can be employed as a marker for the appearance of an arrested state commensurate with conventional WAT measurements.

Published

2019

34. Anhydrobiosis: Inside yeast cells

Author

Patrick Gervais, Laurent Beney, Sébastien Dupont, Elena A. Golovina, Alexander Rapoport, University of Latvia (LU), Procédés Alimentaires et Microbiologiques [Dijon] (PAM), Université Bourgogne Franche-Comté [COMUE] (UBFC)-Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement, Procédés Microbiologiques et Biotechnologiques (PMB), Procédés Alimentaires et Microbiologiques (PAM), Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Procédés Alimentaires et Microbiologiques [Dijon] (PAM), Université Bourgogne Franche-Comté [COMUE] (UBFC)-Université de Bourgogne (UB)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement-Université Bourgogne Franche-Comté [COMUE] (UBFC)-AgroSup Dijon - Institut National Supérieur des Sciences Agronomiques, de l'Alimentation et de l'Environnement, TW-LV-LT Foundation for Scientific Cooperation grant 2016-2018, STW Stichting voor de Technische Wetenschappen [2014-2018], Regional Council of Bourgogne - Franche Comte, and 'Fonds Europeen de Developpement Regional (FEDER)' 2016-2017

Subjects

0106 biological sciences, lipid-phase, Cell Survival, desiccation tolerance, Microorganism, Biophysics, Bioengineering, Saccharomyces cerevisiae, Biology, 01 natural sciences, Applied Microbiology and Biotechnology, Dehydration-rehydration, Desiccation tolerance, 03 medical and health sciences, wine yeast, Intracellular protective reactions, 010608 biotechnology, [SDV.IDA]Life Sciences [q-bio]/Food engineering, Organelle, [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, water replacement hypothesis, Laboratorium voor Plantenfysiologie, Desiccation, Cryptobiosis, membrane phase-transitions, 030304 developmental biology, 0303 health sciences, Dehydration, Water, endoplasmic-reticulum, plasma-membrane, Anhydrobiosis, Yeast, Dehydration–rehydration, Yeast in winemaking, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Biofysica, Cellular Microenvironment, Intracellular changes, Biochemistry, glass-transition, candida-utilis cells, EPS, Adaptation, saccharomyces-cerevisiae cells, Laboratory of Plant Physiology, Biotechnology

Abstract

International audience; Under natural conditions yeast cells as well as other microorganisms are regularly subjected to the influence of severe drought, which leads to their serious dehydration. The dry seasons are then changed by rains and there is a restoration of normal water potential inside the cells. To survive such seasonal changes a lot of vegetative microbial cells, which belong to various genera and species, may be able to enter into a state of anhydrobiosis, in which their metabolism is temporarily and reversibly suspended or delayed. This evolutionarily developed adaptation to extreme conditions of the environment is widely used for practical goals - for conservation of microorganisms in collections, for maintenance and long storage of different important strain-producers and for other various biotechnological purposes. This current review presents the most important data obtained mainly in the studies of the structural and functional changes in yeast cells during dehydration. It describes the changes of the main organelles of eukaryotic cells and their role in cell survival in a dry state. The review provides information regarding the role of water in the structure and functions of biological macromolecules and membranes. Some important intracellular protective reactions of eukaryotic organisms, which were revealed in these studies and may have more general importance, are also discussed. The results of the studies of yeast anhydrobiosis summarized in the review show the possibilities of improving the conservation and long-term storage of various microorganisms and of increasing the quality of industrially produced dry microbial preparations.

Published

2019

35. Glass-Forming Ability and Soft Magnetic Properties of (Co75Ti25)100−xFex (x

Author

El-Eskandarany, Mohamed Sherif, Ali, Naser, and Saeed, Maryam

Subjects

Condensed Matter::Materials Science, thermodynamics, phase transformation, solid-solution, solid-state reaction, glass-transition, layered structure morphology, supercooled liquid region, crystallizations, mechanical alloying, high-energy ball-milling

Abstract

Due to their outstanding mechanical properties and soft magnetic characteristics, cobalt-based metallic glassy alloys have stimulated much interesting research. These metastable ferromagnetic materials possess very small magnetocrystalline anisotropy, and almost zero magnetostriction. They reveal low coercivity, extremely low core loss, moderate saturation polarization, and very high magnetism. Despite these attractive physical behaviors, Co-based metallic glasses are difficult to obtain by the melting/casting and conventional rapid solidification techniques due to their poor glass-forming ability. In the present study, we succeed in preparing (Co75Ti25)100&minus, xFex (x, 0&ndash, 20 at.%) metallic glassy powders, using a mechanical alloying approach. The end product of the as-prepared powders was consolidated into full dense cylinders with large-diameter and thickness (2 &times, 2 cm), using spark plasma sintering technique. The results have shown that the consolidation step did not lead to any undesired crystallizations or phase transformations, and the as-consolidated buttons maintained their unique short-range order structure. These bulk metallic glassy systems possessed high glass-transition and crystallization temperatures, suggesting their high thermal stability. However, they showed low values of the reduced glass-transition temperatures, indicating that this system is difficult to prepare by the conventional way of preparations.

Published

2020

36. Glass-Forming Ability and Soft Magnetic Properties of (Co

Author

Mohamed Sherif, El-Eskandarany, Naser, Ali, and Maryam, Saeed

Subjects

Condensed Matter::Materials Science, thermodynamics, phase transformation, solid-solution, solid-state reaction, glass-transition, layered structure morphology, supercooled liquid region, crystallizations, Article, mechanical alloying, high-energy ball-milling

Abstract

Due to their outstanding mechanical properties and soft magnetic characteristics, cobalt-based metallic glassy alloys have stimulated much interesting research. These metastable ferromagnetic materials possess very small magnetocrystalline anisotropy, and almost zero magnetostriction. They reveal low coercivity, extremely low core loss, moderate saturation polarization, and very high magnetism. Despite these attractive physical behaviors, Co-based metallic glasses are difficult to obtain by the melting/casting and conventional rapid solidification techniques due to their poor glass-forming ability. In the present study, we succeed in preparing (Co75Ti25)100−xFex (x; 0–20 at.%) metallic glassy powders, using a mechanical alloying approach. The end product of the as-prepared powders was consolidated into full dense cylinders with large-diameter and thickness (2 × 2 cm), using spark plasma sintering technique. The results have shown that the consolidation step did not lead to any undesired crystallizations or phase transformations, and the as-consolidated buttons maintained their unique short-range order structure. These bulk metallic glassy systems possessed high glass-transition and crystallization temperatures, suggesting their high thermal stability. However, they showed low values of the reduced glass-transition temperatures, indicating that this system is difficult to prepare by the conventional way of preparations.

Published

2020

37. Activation induced fluidization of a confined viscous liquid.

Author

Mercier, Felix, Delhaye, Gaetan, and Teboul, Victor

Subjects

*SUPERCOOLED liquids, *FLUIDIZATION, *MOLECULAR motor proteins, *LIQUIDS, *MOLECULAR dynamics, *STATISTICAL correlation

Abstract

• The dynamical slowing down induced by confinement is washed out by the activation. • A permanent localization of the excitations inside the pore suggesting structural localization of dynamic heterogeneity. • The motor's opening angle controls the degree of activation of the liquid. • The Non Gaussian parameter increases suggesting an increase of the cooperative dynamics. Confinement of supercooled liquids into nano-pores induces a strong modification of the dynamics. In this work we raise the issue as how this confinement effect is modified when the liquid is out of equilibrium. To answer that question, we use molecular dynamics simulations to investigate the effect of confinement on a supercooled liquid activated by the periodic folding of a molecular motor. The excitation (i.e. elementary diffusion processes) density calculation shows that the motor's opening angle controls the activation of the medium. We then use that result to study the effect of different activations on the confined supercooled liquid. When our liquid is not activated, the confinement generates a strong slowing down of the dynamics, and the excitation density decreases sharply around the pore wall. In contrast when the liquid is activated the motor generates excitations inside the medium localized mostly in the pore center. The combination of these two effects leads to a localization of the excitation density when the motor is on. Results show that the activation is able to wash out the confinement-induced slowing down while the main characteristics of supercooled liquids are maintained or increased. We observe actually an increase of the tail of the Van Hove correlation function upon activation inside the pores leading to the increase of the Non Gaussian parameter, two signatures of dynamic heterogeneity in supercooled liquids. [ABSTRACT FROM AUTHOR]

Published

2022

38. Modelling of chemical shrinkage evolution with curing degree of a filled epoxy adhesive

Author

Holst, T., Sayer, F., Antoniou, A., Holst, T., Sayer, F., and Antoniou, A.

Abstract

An epoxy adhesive system, commonly used in wind turbine blade manufacturing, is experimentally investigated with respect to its chemical shrinkage behavior to show the shrinkage evolution within rotor blade production related process conditions. Therefore, a new test configuration is set up to record the resulting chemical shrinkage of the adhesive at cross-linking temperatures ranging from 20 C to 90 C. The respective conversion evolution is simulated under several temperature conditions through a curing kinetics model. This is generated with state of the art formulations, implementing test results from a differential scanning calorimeter (DSC). Moreover, the transformation of the curing degree to the corresponding glass transition temperature (Tg ) is performed through an experimentally based Di-Benedetto curve-fitting. By the combination of curing kinetics and chemical shrinkage test data, a model for the temperature and conversion dependant chemical shrinkage evolution during cure is developed. This is applied to a realistic curing cycle for adhesive materials in rotor blade production.

Published

2020

39. Direct Observation of Desorption of a Melt of Long Polymer Chains

Author

Física de materiales, Materialen fisika, Monnier, Xavier, Napolitano, Simone, Cangialosi, Daniele, Física de materiales, Materialen fisika, Monnier, Xavier, Napolitano, Simone, and Cangialosi, Daniele

Abstract

Tuning the thermodynamic state of a material has a tremendous impact on its performance. In the case of polymers placed in proximity of a solid wall, this is possible by annealing above the glass transition temperature, T-g, which induces the formation of an adsorbed layer. Whether heating to higher temperatures would result in desorption, thereby reverting the thermodynamic state of the interface, has so far remained elusive, due to the interference of degradation. Here, we employ fast scanning calorimetry, allowing to investigate the thermodynamics of the interface while heating at 10(4) K s(-1). We show that applying such rate to adsorbed polymer layers permits avoiding degradation and, therefore, we provide clear-cut evidence of desorption of a polymer melt. We found that the enthalpy and temperature of desorption are independent of the annealing temperature, which, in analogy to crystallization/melting, indicates that adsorption/desorption is a first order thermodynamic transition

Published

2020

40. Substrate vs. free surface: Competing effects on the glass transition of polymer thin films.

Author

Xia, Wenjie, Mishra, Shawn, and Keten, Sinan

Subjects

*POLYMER films, *SURFACES (Technology), *GLASS transition temperature, *POLYMETHYLMETHACRYLATE, *THIN films, *SUBSTRATES (Materials science)

Abstract

Abstract: The glass-transition temperature (T g) of polymer thin films can be strongly influenced by the combined effects of the supporting solid substrate and the free surface. The relative importance of these two effects, which often compete with each other, depends on the strength of the substrate–film interactions. Utilizing an atomistically informed coarse-grained model for poly(methyl methacrylate) (PMMA), here we uncover the relationship between the substrate–film interfacial energy and the spatial distribution of T g across thin films. We find that above a critical interfacial energy, the linear dependence of film T g on the interfacial energy breaks down and film T g attains an asymptotic value. Analyses on the spatial variation of T g across the thin film reveal that the short-range interface near the cohesive surface generates a long-range interphase that leads a spatially uniform appreciation of T g throughout the film, unlike weakly cohesive surfaces that show sharp gradients along the depth of film. These findings explain recent experiments and reveal a versatile approach for tuning film T g via engineered substrate-film interactions. [Copyright &y& Elsevier]

Published

2013

41. Manifestation of thermodynamic glass transition by structure and picosecond dynamics in alkali tellurite glasses

Author

Kalampounias, Angelos G.

Subjects

*THERMODYNAMICS, *GLASS transition temperature, *CRYSTAL structure, *PICOSECOND pulses, *TELLURITES, *METALLIC glasses, *TEMPERATURE effect

Abstract

Abstract: The Raman spectra of the 0.1Cs2O–0.9TeO2 melt were measured and analyzed over a broad temperature range including the glassy, supercooled and molten state in an effort to follow the varying structural and dynamical aspects caused by temperature and alkali modifier. The network structure of the glass/melt is formed by mixing TeO4 trigonal bipyramid and TeO3 trigonal pyramid units. Changing alkali content and/or temperature results to conversion of the TeO4 units to TeO3 units with a varying number of non-bridging oxygen atoms. The low-frequency Raman spectra reveal a well-resolved Boson peak whose frequency also depends on temperature. The variation of the maximum of the Boson peak has been determined and discussed in the framework of current phenomenological models. The short-time dynamics of the system experiences drastic changes when approaching the glass-to-liquid transition. The temperature dependent plot of the correlation times extrapolates to a crossover value, which we assign as spectral evidence of the system''s known thermodynamic glass transition temperature. Similar behavior exhibit several spectral features, such as the maximum of the Boson peak, the exponent of the susceptibility and the intensity ratio related to the structural transformation from TeO4 tbp to TeO3 tp species occurring in the medium range order structure. [Copyright &y& Elsevier]

Published

2012

42. Elevated temperature deflection behavior of concrete members reinforced with FRP bars.

Author

Faruqi, MA, Roy, S, and Salem, A

Subjects

*POLYMERS, *FIRE, *BUILDINGS, *ELASTIC analysis (Engineering), *PROPHECY

Abstract

In recent years there has been an increased interest in the use of fiber reinforced polymer (FRP) materials in concrete members. However, the behavior of such members in fire is still relatively unknown. Since this is the main reason limiting the widespread use of FRP in buildings, the use of FRP in fire vulnerable structures needs additional study. In this article, a model is developed that incorporates the temperature dependent progressive changes of Elastic-modulus of FRP in predicting the deflection behavior of FRP reinforced concrete structures within the range of practical elevated temperatures. Predictions from the model correlate well with experimental results from the literature. The new approach provides an additional tool to evaluate the deflection of FRP reinforced concrete structures in fire. [ABSTRACT FROM PUBLISHER]

Published

2012

43. Mechanical and thermal characterization of cis-polyisoprene and trans-polyisoprene blends.

Author

Baboo, Mahesh, Dixit, Manasvi, Sharma, Kananbala, and Saxena, Narendra

Subjects

*ISOPRENE, *THERMAL properties, *X-ray scattering, *THERMAL diffusivity, *THERMAL conductivity, *HEAT conduction

Abstract

Measurements of mechanical and thermal transport properties have been made on the blends of cis-polyisoprene (CPI) and trans-polyisoprene (TPI) prepared by a solution casting method. Characterization of these blends has been done using wide angle X-ray scattering. Thermo-mechanical, mechanical, and thermal transport properties have been determined employing dynamic mechanical analyzer (DMA) and transient plane source. Storage modulus and tan δ as determined from DMA have been found to increase and decrease with the increase in TPI content, respectively. Mechanical properties such as Young's modulus and tensile strength, as determined from strain-stress behavior of CPI/TPI blends, have been found to increase with increasing TPI content. This increase in properties has been explained on the basis of the crosslink density, calculated using theory of rubber elasticity. Thermal transport properties such as thermal conductivity, thermal diffusivity, and volumetric heat capacity are higher for all the three blends as compared to their pure components. [ABSTRACT FROM AUTHOR]

Published

2011

44. Specific heat of ethanol at low temperatures

Author

Rodriguez-Mora, Virginia and Ramos, Miguel A.

Subjects

*ALCOHOL, *LOW temperatures, *TEMPERATURE measurements, *SOLID state physics

Abstract

Abstract: We present here new specific heat measurements at low temperatures (2–20K) of the different phases of ethanol, characterized by the same calorimetric set-up at higher temperatures. We have extended and improved earlier measurements by implementing higher-accuracy calorimetric methods at low temperatures (using two complementary versions of the thermal relaxation method), as well as at higher temperatures (using a quasi-adiabatic, continuous method). The quantitatively very similar low temperature properties and glass-transition features of both structural glass and orientationally-disordered crystal of ethanol provide clear evidence that the lack of long-range crystalline order typical of amorphous solids is an unimportant factor regarding the universal properties of glasses. We have also employed these new measuring methods to study the possible effect of water impurities on the specific heat of the different solid phases of ethanol, and to study possible variations in the specific heat between different found phases of the monoclinic crystal of ethanol. [Copyright &y& Elsevier]

Published

2008

45. Characterization of water, ethanol, and 1-butanol films by interaction with C6F14

Author

Koiwai, R., Kawanowa, H., Gotoh, Y., and Souda, R.

Subjects

*WATER, *ALCOHOL, *MOLECULES, *HYDROGEN

Abstract

Abstract: The properties of water, ethanol and 1-butanol at cryogenic temperatures (10–220K) are discussed by investigating the interaction with the C6F14 molecule. The C6F14 molecules adsorbed on the surface are incorporated in the bulk of the glassy water and alcohol films. The wettability may arise from the formation of improper hydrogen bonding between the OH group and F atom. On the alcohol films, the incorporated C6F14 molecules segregate to the surface at 100K, since the hydrogen-bonded rings and chains of alcohols are formed due to the glass–liquid transition. The C6F14 molecules incorporated in the bulk of amorphous solid water can survive a viscous liquid phase that appears above 136K and desorb abruptly at 167K as a consequence of the liquid–liquid transition. [Copyright &y& Elsevier]

Published

2007

46. Influence of Isosorbide on Glass-Transition Temperature and Crystallinity of Poly(butylene terephthalate).

Author

Kricheldorf, H.R., Behnken, G., and Sell, M.

Subjects

*COPOLYMERS, *TEREPHTHALIC acid, *GLASS transition temperature, *CONDENSATION, *DICHLOROMETHANE, *TRANSITION temperature

Abstract

Copolyesters of isosorbide and 1,4-butane diol were prepared by Ti(OBu)4-catalyzed transesterifications with dimethyl terephthalate in bulk at temperatures up to 250°C. The content of isosorbide was considerably lower than expected from the feed ratio and the molar masses were low, so that no DSC measurements were conducted. Copolycondensations of isosorbide and 1,4-butane diol with terephthaloyl chloride were either performed in dichloromethane at 40°C or in toluene at 100°C. The second method gave the higher molar masses. However, both series of polycondensations had the content of isosorbide roughly paralleled the feed ratios in common. The DSC measurements revealed that even 6 mol% of isosorbide is sufficient to raise the glass-transition temperature (Tg) by 10-12°C (up to 55°C). With 50 mol% of isosorbide, the Tg reaches 100°C. Yet, incorporation of isosorbide also reduces the melting temperature Tm and the degree of crystallinity, and a mol percentage above 30% prevents crystallization completely. In summary, incorporation of isosorbide allows for fine-tuning of Tg and Tm of poly(butylene terephthalate) over a wide range. [ABSTRACT FROM AUTHOR]

Published

2007

47. A glance on the glass-transition phenomenon from the viewpoint of devitrification

Author

Louzguine-Luzgin, Dmitri V. and Inoue, Akihisa

Subjects

*CRYOSCOPY, *LIQUID metals, *TRANSMISSION electron microscopy, *TEMPERATURE measurements

Abstract

Abstract: The formation of a supercooled liquid region and devitrification behaviour of metallic glasses on heating are discussed in relation with the glass-transition phenomenon observed using differential scanning and isothermal calorimetries as well as X-ray diffraction and transmission electron microscopy (TEM). One of the most clear sequences of the glassy↔supercooled liquid phase transition is the change of the devitrification behaviour and the kinetics of the devitrification reaction in Al-based and some other alloys after the transition from the glassy to the supercooled liquid state. The significant variation in the devitrification behaviour and thermodynamic parameters indicate the difference between the glassy and the supercooled liquid phases. [Copyright &y& Elsevier]

Published

2007

48. Poly(thioether) Vitrimers via Transalkylation of Trialkylsulfonium Salts

Author

Jelle Waelkens, Filip Du Prez, Benjamin Hendriks, and Johan M. Winne

Subjects

Polymers and Plastics, GLASS-TRANSITION, 02 engineering and technology, Alkylation, 010402 general chemistry, 01 natural sciences, METATHESIS, Inorganic Chemistry, chemistry.chemical_compound, Thioether, SYSTEMS, Polymer chemistry, Materials Chemistry, POLYADDITION, chemistry.chemical_classification, EXCHANGE-REACTIONS, Chemistry, Organic Chemistry, POLYMER, Polymer, 021001 nanoscience & nanotechnology, VINYLOGOUS URETHANE VITRIMERS, NETWORKS, 0104 chemical sciences, Photopolymer, Vitrimers, Click chemistry, CLICK CHEMISTRY, THERMOPLASTICS, 0210 nano-technology, Transalkylation, Glass transition, COVALENT ADAPTABLE NETWORKS

Abstract

Vitrimers are permanently cross-linked organic polymers that can be reshaped, molded, and recycled without loss of network integrity. Herein, we report poly(thioether) networks, prepared through a straightforward thiol-ene photopolymerization, that can be turned into catalyst-free vitrimer materials by partial alkylation of the thioethers (1-10%) to the corresponding trialkylsulfonium salts. Based on a classical S(N)2-type substitution, the resulting polyionic networks can be reshaped upon heating via swift transalkylation reactions. This novel exchange reaction for the design of vitrimers was studied both on low MW model compounds as well as on a material level. In addition, we demonstrated the recycling of these networks without significant loss of mechanical properties.

Published

2017

49. Molecular dynamics and glass-transition of ethylene glycol adsorbed in zeolites: Influence of surface–molecule interactions, topology, and loading degree

Author

Erdem, Özlen F., Tsuwi, Julius, Hong, Suk Bong, and Michel, Dieter

Subjects

*ZEOLITES, *MOLECULAR dynamics, *ETHYLENE glycol, *ETHYLENE glycols

Abstract

Abstract: By means of broadband dielectric spectroscopy the molecular dynamics of glass-forming ethylene glycol (EG) adsorbed in zeolites is investigated by varying the loading degree, the type of zeolites, and the Si/Al ratio. We only concentrate to the frequency and temperature range where relaxation processes may be observed which allow conclusions about the glass-transition. Although EG molecules in the bulk liquid show a Vogel–Fulcher–Tammann (VFT) type of activation at lower temperatures, measurements for EG molecules adsorbed in NaX zeolites always follow Arrhenius-type of behaviour independent of the loading degree. This effect is explored in more detail by measuring the dielectric relaxation rate for EG adsorbed in zeolite beta, EG/beta, with different Si/Al ratios. For the case of zeolite beta with a very large Si/Al ratio, a glass-transition is observed, i.e., a VFT-type of activation is detectable. For the system EG/beta with Si/Al ratio of 56, however, a clear Arrhenius-type of activation is observed. Obviously, due to a higher number of adsorption sites, surface–molecule interactions are of greater influence and suppress the glass-transition. For EG/beta with a Si/Al ratio between 56 and infinity, there is subtle interplay between “cooperative” and “local” motions, i.e., between VFT- and Arrhenius-type of activation behaviour. [Copyright &y& Elsevier]

Published

2006

50. Polymer Property Prediction and Optimization Using Neural Networks.

Author

Roy, Nilay K., Potter, Walter D., and Landau, David P.

Subjects

*BACK propagation, *ARTIFICIAL intelligence, *MACHINE learning, *MOMENTUM (Mechanics), *INERTIA (Mechanics)

Abstract

Prediction and optimization of polymer properties is a complex and highly nonlinear problem with no easy method to predict polymer properties directly and accurately. The problem is especially complicated with high molecular weight polymers such as engineering plastics which have the greatest use in industry. The effect of modifying a monomer (polymer repeat unit) on polymerization and the resulting polymer properties is not easy to investigate experimentally given the large number of possible changes. This severely curtails the design of new polymers with specific end-use properties. In this paper, we show how properties of modified monomers can be predicted using neural networks. We utilize a database of polymer properties and employ a variety of networks ranging from backpropagation networks to unsupervised self-associating maps. We select particular networks that accurately predict specific polymer properties. These networks are classified into groups that range from those that provide quick training to those that provide excellent generalization. We also show how the available polymer database can be used to accurately predict and optimize polymer properties. [ABSTRACT FROM AUTHOR]

Published

2006