Journal of Polymer Science Part B: Polymer Physics
Copyright © 2012 Wiley Periodicals, Inc., A Wiley Company
Online ISSN: 1099-0488
Associated Title(s): Journal of Polymer Science Part A: Polymer Chemistry
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Publishes papers on the physics of polymers, including applications, theory and modeling and experiments. 2013 ISI Impact Factor: 3.803.
Recently Published Articles
- Solution processing of polymer semiconductor: Insulator blends—Tailored optical properties through liquid–liquid phase separation control
Christoph Hellmann, Neil D. Treat, Alberto D. Scaccabarozzi, Joseph Razzell Hollis, Franziska D. Fleischli, James H. Bannock, John de Mello, Jasper J. Michels, Ji-Seon Kim and Natalie Stingelin
Article first published online: 17 DEC 2014 | DOI: 10.1002/polb.23656
Classical principles on the phase separation of two immiscible polymeric components in a mutual solvent have been applied to tailor the optical properties of a polymer semiconductor in an insulating matrix. This approach allows controlling the solidification of the blend from solution, leading to new opportunities for the systematic manipulation of central photophysical characteristics of organic semiconductors for optoelectronic applications.
- Graphoepitaxial assembly of cylinder forming block copolymers in cylindrical holes
Brandon L. Peters, Ben Rathsack, Mark Somervell, Takeo Nakano, Gerard Schmid and Juan J. de Pablo
Article first published online: 16 DEC 2014 | DOI: 10.1002/polb.23652
Monte Carlo simulations were performed with block copolymers to explore the hole shrink problem for lithographic applications. The balance between the natural periodicity of the block copolymer and the diameter of the hole is the key factor to obtain a polymer cylinder that extends through the hole. When the system is out of the ideal conditions, changing the wall/polymer interaction, deforming the hole, adding homopolymers, and overfilling the holes provide a method for obtaining a polymer that extends through the hole.
- Physical aging in amorphous poly(ethylene furanoate): Enthalpic recovery, density, and oxygen transport considerations
Steven K. Burgess, Christopher R. Mubarak, Robert M. Kriegel and William J. Koros
Article first published online: 15 DEC 2014 | DOI: 10.1002/polb.23648
Understanding the physical aging process in glassy polymers is critical for materials with end-use applications below Tg. The current work utilizes three separate techniques to study physical aging in amorphous poly(ethylene furanoate) (PEF), which is a recently introduced engineering thermoplastic with enhanced properties compared to poly(ethylene terephthalate). Differential scanning calorimetry aging experiments are used in addition to density and oxygen transport measurements to investigate the free volume reduction mechanism for physical aging in PEF.
- Characterizing polymers with heterogeneous micro- and macrostructures
Rana Gurarslan, Alper Gurarslan and Alan E. Tonelli
Article first published online: 15 DEC 2014 | DOI: 10.1002/polb.23645
A practical need exists for distinguishing between polymer samples with chains that have homogeneous and heterogeneous populations of micro- and macrostructures. A combination of high resolution13C-NMR to determine the types and amounts of constituent short-range microstructures, as well as dilute solution electrical birefringence or Kerr effect measurements to locate them along the polymer chains, may be able to achieve this macrostructural distinction.
- Control of mechanically activated polymersome fusion: Factors affecting fusion
Ian M. Henderson and Walter F. Paxton
Article first published online: 15 DEC 2014 | DOI: 10.1002/polb.23650
In this study, the environmental effects on the salt mediated, mechanically assisted fusion of polymer vesicles are investigated. Concentration of salt, as well as valence, is shown to heavily affect the fusion process, though the species of salt itself is of little concern. The results indicate an Arrhenius-like relationship between concentration, agitation speed, and the extent of fusion, uncovering reliable techniques by which the fusion process can be controlled.