Cross-examining Polyurethane Nanodomain Formation and Internal Structure
Maxwell W. Terban, Karsten Seidel, Elmar Pöselt, Marc Malfois, Roelf‐Peter Baumann, Ralf Sander, Dirk Paulus, Bernd Hinrichsen, Robert E. Dinnebier
Abstract
H spin-diffusion. In particular, density distribution functions are highlighted as a means to bridging the gap from the domain morphology to intradomain structural ordering. High real-space resolution PDFs are shown to provide a sensitive fingerprint for indexing aromatic, aliphatic, and polymerization-induced bonding characteristics, as well as the hard phase structure, and indicate that hard phases coexist in both ordered and disordered states.
Topics & Concepts
Small-angle X-ray scatteringBridging (networking)Chemical physicsMaterials sciencePair distribution functionPolymerizationScatteringNanoscopic scalePolymerCrystallographyChemistryNanotechnologyPhysicsComposite materialOpticsQuantum mechanicsComputer networkComputer scienceAdvanced NMR Techniques and ApplicationsNMR spectroscopy and applicationsX-ray Diffraction in Crystallography