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Molecular dynamics simulations of macroscopic vibrations on cooling of superheated polyethylene crystalsPresnted at ‘MacroAkron '94, 35th IUPAC Symposium on Macromolecules’, Akron, Ohio, 11-15 July 1994. The submitted manuscript has been authored by a contractor of the U.S. Government under contract No. DEAC05-84OR21400. Accordingly, the U.S. Government retains a non-exclusive, royalty-free license to publish or reproduce the published form of this contribution, or allow others to do so, for U.S. Government purposes. (1995)

Kreitmeier, Stefan N. ; Liang, Guanghe L. ; Noid, Donald W. ; [et al.]

New York, NY [u.a.] : Wiley-Blackwell

Polymer International 36 (1995), S. 155-163

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ISSN: 0959-8103

Keywords: polyethylene ; pentacontane ; molecular dynamics simulation ; density ; melting ; speed of sound ; expansivity ; vibration ; Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics , Physics

Notes: In this paper a discussion is given of the change of density with time and temperature within a crystal of 192 (CH2)50 chains, simulated by molecular dynamics computations at temperatures from 65 to 425 K. The highest temperatures exceed the melting temperature (about 365K). On simulation for times of up to 100 ps the temperature dropped through the melting temperature, permitting the study of the behavior of the crystal during initial melting, followed by limited recrystallization. In these short times only a limited number of chains on the surface can begin to coil and melt conformationally, but there is an indication of a disordering transition. A better comparison with experimental data on density, expansivity and speed of sound is possible.

Additional Material: 16 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/pi.1995.210360206

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Modulated differential scanning calorimetry in the glass transition region. V. Activation energies and relaxation times of poly(ethylene terephthalate)s (1996)

Okazaki, Iwao ; Wunderlich, Bernhard

Bognor Regis [u.a.] : Wiley-Blackwell

Journal of Polymer Science Part B: Polymer Physics 34 (1996), S. 2941-2952

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ISSN: 0887-6266

Keywords: temperature-modulated calorimetry (TMC) ; temperature-modulated differential scanning calorimetry (TMDSC) ; heat capacity ; glass transition ; heat flow calorimeter ; irreversible thermodynamics ; activation energy ; poly(ethylene terephthalate) ; hysteresis ; enthalpy relaxation ; Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Physics

Notes: Temperature-modulated differential scanning calorimetry is used to evaluate the kinetics of the glass transition from measurement of the first harmonic of the apparent, reversing heat capacity. The data are taken from quasi-isothermal experiments with negligible instrument lag, extrapolated to zero modulation amplitude. Equations based on irreversible thermodynamics that can be understood in terms of the hole theory of liquids are applied to measurements on amorphous, semicrystalline, and biaxially drawn poly(ethylene terephthalate)s (PET). The activation energy of amorphous PET decreases from 328 to 153 kJ/mol on crystallization and to 111 kJ/mol on orientation, and is correlated with an increase in the preexponential factor. After annealing of the crystallized samples below the glass transition temperature, the activation energy of the semicrystalline PET can recover beyond the level of amorphous PET, to 387 kJ/mol. The earlier observed decrease in enthalpy relaxation on crystallization is linked to this sharp decrease in activation energy. © 1996 John Wiley & Sons, Inc.

Additional Material: 11 Ill.

Type of Medium: Electronic Resource

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Reversible local melting in polymer crystalsFirst experiments presented at the 4th Lähnwitz Seminar, Krugsdorf, Germany, June 1996.The submitted manuscript has been authored by a contractor of the U.S. Government under the contract No. DE-AC05-960R22464. Accordingly, the U.S. Government retains a non-exclusive, royalty-free license to publish, or reproduce the published form of this contribution, or allow others to do so, for U.S. Government purposes. (1997)

Okazaki, Iwao ; Wunderlich, Bernhard

Weinheim : Wiley-Blackwell

Macromolecular Rapid Communications 18 (1997), S. 313-318

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ISSN: 1022-1336

Keywords: Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Physics

Notes: The melting of poly(ethylene terephthalate) is analyzed by quasi-isothermal, temperature-modulated differential scanning calorimetry. The measurement is done by sinusoidally changing the temperature in the melting range (± 1.0 K). In the melting range a small portion of the sample melts reversibly. This observation is taken as a direct observation of the reversibility of melting of specific macromolecules as long as they are melting only partially and need no molecular nucleation for recrystallization.

Additional Material: 4 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/marc.1997.030180407

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Heat capacities of poly(amino acid)s and proteins (1995)

Zhang, Ge ; Lebedev, B. V. ; Wunderlich, Bernhard ; [et al.]

Bognor Regis [u.a.] : Wiley-Blackwell

Journal of Polymer Science Part B: Polymer Physics 33 (1995), S. 2449-2455

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ISSN: 0887-6266

Keywords: heat capacity ; protein ; poly(amino acid) ; insulin ; poly(L-methionine) ; poly(L-phenylalanine) ; vibrational frequency spectrum ; Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Physics

Notes: In an ongoing effort to understand the thermodynamic properties of proteins, solid-state heat capacities of poly(amino acid)s of all 20 naturally occurring amino acids and 4 copoly(amino acid)s have been previously reported on and were analyzed using our Advanced THermal Analysis System (ATHAS). We extend the heat capacities of poly(L-methionine) (PLMFT) and poly(L-phenylalanine) (PLPHEA) with new low temperature measurements from 10 to 340 K. In addition, analyses were performed on literature data of a first protein, zinc bovine insulin dimer C508H752O150N130S12Zn, using both the ATHAS empirical addition scheme and computation with an approximate vibrational spectrum for the protein. For the solid state, agreement with the measurement could be accomplished to ±1.6% for PLMET, ±3.5% for PLPHEA, and ±3.2% for insulin, linking the macroscopic heat capacity to its microscopic cause, the group and skeletal vibrational motion. For each polymer, one set of parameters, Θ1 and Θ3, of the Tarasov function representing the skeletal vibrational contribution to the heat capacity are obtained from a new optimization procedure [PLMET: 542 K and 83 K (number of skeletal vibrations Ns = 15); PLPHEA: 396 K and 67 K (Ns = 11); and insulin monomer: 599 K and 79 K (Ns = 628), respectively]. Enthalpy, entropy, and Gibbs free energy have been derived for the solid state. © 1995 John Wiley & Sons, Inc.

Additional Material: 4 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/polb.1995.090331716

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Structure of single-molecule single crystals of isotactic polystyrene and their radiation resistance (1998)

Bu, Haishan ; Cao, Jie ; Zhang, Zhensheng ; [et al.]

Bognor Regis [u.a.] : Wiley-Blackwell

Journal of Polymer Science Part B: Polymer Physics 36 (1998), S. 105-112

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ISSN: 0887-6266

Keywords: polystyrene ; single-molecule single crystal ; radiation resistance ; lattice image ; Physics ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Physics

Notes: The structure of single-molecule single crystals of isotactic polystyrene (i-PS) was investigated by electron diffraction (ED). The nanoscale single-molecule single crystals were found to be more resistant to electron irradiation when compared to the larger crystals of many molecules, as indicated by both observation of ED and high-resolution electron microscopy with increasing radiation dose. It is proposed that since the single-molecule single crystals are very small, the secondary electrons escape more frequently from the crystal so that the radiation damage is reduced. Lattice imaging was achieved at room temperature in the case of single-molecule single crystals because of their stability to electron irradiation. Published 1998 John Wiley & Sons, Inc.This article is a US Government work and, as such, is in the public domain in the United States of America. J Polym Sci B: Polym Phys 36: 105-112, 1998

Additional Material: 8 Ill.

Type of Medium: Electronic Resource

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Heat capacities of solid, globular proteins (1996)

Zhang, Ge ; Gerdes, Stina ; Wunderlich, Bernhard

Weinheim : Wiley-Blackwell

Macromolecular Chemistry and Physics 197 (1996), S. 3791-3806

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ISSN: 1022-1352

Keywords: Chemistry ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Physics

Notes: In an ongoing effort to understand the thermodynamic properties of proteins, solid-state heat capacities of poly(amino acid)s of all 20 naturally occurring amino acids and 4 copoly(amino acid)s were previously determined using our Advance Thermal Analysis System (ATHAS). Recently, poly(L-methionine) and poly(L-phenylalanine) were further studied with new low-temperature measurements from 10 to 340 K. In addition, an analysis was performed on literature data of a first protein, zinc bovine insulin dimer C508H752O150N130S12Zn. Good agreement was found between experiment and calculation. In the present work, we have investigated four additional anhydrous globular proteins, α-chymotrypsinogen, β-lactoglobulin, ovalbumin, and ribonuclease A. The heat capacity of each protein was measured from 130 to 420 K with differential scanning calorimetry, and the data were analyzed with both the ATHAS empirical addition scheme and a fitting to computations using an approximate vibrational spectrum. For the solid state, agreement between measurement and computation scheme could be accomplished to an average and root mean square percentage error of 0.5 ± 3.2% for α-chymotrypsinogen, -0.8 ± 2.5% for β-lactoglobulin, -0.4 ± 1.8% for ovalbumin, and -0.7 ± 2.2% for ribonuclease A. With these calculations, it was possible to link the macroscopic heat capacities to their macroscopic causes, the group and skeletal vibrational motion. For each protein one set of parameters of the Tarasov function, Θ1 and Θ3, represent the skeletal vibrational contributions to the heat capacity. They are obtained from a new optimization procedure [α-chymotrypsinogen: 631 K and 79 K (number of skeletal vibrators Ns = 3005); β-lactoglobulin: 582 K and (79 K) (Ns = 2188); ovalbumin: 651 K and (79 K) (Ns = 5008) and ribonuclease A: 717 K and (79 K) (Ns = 1574), respectively]. Enthalpy, entropy, and Gibbs free energy can be derived for the solid state.

Additional Material: 5 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/macp.1996.021971124

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Crystallization and melting of poly(oxyethylene) analyzed by temperature-modulated calorimetry (1997)

Ishikiriyama, Kazuhiko ; Wunderlich, Bernhard

Bognor Regis [u.a.] : Wiley-Blackwell

Journal of Polymer Science Part B: Polymer Physics 35 (1997), S. 1877-1886

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ISSN: 0887-6266

Keywords: temperature-modulated calorimetry ; TMC ; temperature-modulated differential scanning calorimetry ; TMDSC ; melting ; crystallization ; molecular nucleation ; poly(oxyethylene) ; Physics ; Polymer and Materials Science

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology , Physics

Notes: Temperature-modulated calorimetry, TMC, is used to evaluate the temperature region of metastability between crystallization and melting. While crystals like indium can be made to melt practically reversibly during a TMC cycle of low amplitude so that sufficient crystal nuclei remain unmelted, linear macromolecules cannot, because of their need to undergo molecular nucleation. Modulation amplitudes varying from ±0.2 to ±3.0 K are used to assess the temperature gap between the slow crystallization region and the melting of metastable crystals of poly(oxyethylene) (PEO) of molar mass 1500 Da. This low molar mass PEO serves as a model compound with a metastable gap of melting/crystallization that can be bridged by TMC with a large modulation amplitude. © 1997 John Wiley & Sons, Inc.This article is a US Government work and, as such, is in the public domain in the United States of America. J Polym Sci B: Polym Phys 35: 1877-1886, 1997

Additional Material: 9 Ill.

Type of Medium: Electronic Resource

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