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- ItemCounterion condensation and effective charge of PAMAM dendrimers(Basel : MDPI AG, 2011) Böhme, U.; Klenge, A.; Hänel, B.; Scheler, U.PAMAM dendrimers are used as a model system to investigate the effects of counterion condensation and the effective charge for spherical polyelectrolytes. Because of their amino groups, PAMAM dendrimers are weak polyelectrolytes. Lowering the pH results in an increasing protonation of the amino groups which is monitored via the proton chemical shifts of the adjacent CH2 groups. The effective charge is determined from a combination of diffusion and electrophoresis NMR. The fraction of the charges, which are effective for the interaction with an external electric field or other charges, decreases with increasing generation (size) of the dendrimers.
- ItemMechanochemical route to the synthesis of nanostructured Aluminium nitride(London : Nature Publishing Group, 2016) Rounaghi, S.A.; Eshghi, H.; Scudino, S.; Vyalikh, A.; Vanpoucke, D.E.P.; Gruner, W.; Oswald, S.; Rashid, A.R. Kiani; Khoshkhoo, M. Samadi; Scheler, U.; Eckert, J.Hexagonal Aluminium nitride (h-AlN) is an important wide-bandgap semiconductor material which is conventionally fabricated by high temperature carbothermal reduction of alumina under toxic ammonia atmosphere. Here we report a simple, low cost and potentially scalable mechanochemical procedure for the green synthesis of nanostructured h-AlN from a powder mixture of Aluminium and melamine precursors. A combination of experimental and theoretical techniques has been employed to provide comprehensive mechanistic insights on the reactivity of melamine, solid state metal-organic interactions and the structural transformation of Al to h-AlN under non-equilibrium ball milling conditions. The results reveal that melamine is adsorbed through the amine groups on the Aluminium surface due to the long-range van der Waals forces. The high energy provided by milling leads to the deammoniation of melamine at the initial stages followed by the polymerization and formation of a carbon nitride network, by the decomposition of the amine groups and, finally, by the subsequent diffusion of nitrogen into the Aluminium structure to form h-AlN.
- ItemFlow imaging of hot PVC melt in a high temperature rheo-NMR-system(Dresden : Leibniz-Institut für Polymerforschung, 2002) Gottwald, A.; Kuran, P.; Körber, H.; Scheler, U.[no abstract available]