Erfahrungsbericht: Praktische Umsetzung des Informationsmanagements

Das Handling digitaler Informationen und ihre Integration in bestehende Bibliotheksdienstleistungen sind heutzutage eine der wichtigsten Aufgaben von Bibliotheken. Am Beispiel der Bibliothek der Gesamthochschule Kassel wird gezeigt, wie die entwickelten Lösungen von den organisatorischen, funktionalen und baulichen Gegebenheiten beeinflußt worden sind. Beschrieben werden zudem die technische Plattformen sowie das Zusammenwirken unterschiedlicher Dienste bis hin zum Aufbau eines eigenen Verlages für elektronische Publikationen.

Synthesis and characterisation of novel nitrogen and fluorine containing spirobifluorene derivatives for electronic applications and crystal engineering

Among organic materials, spirobifluorene derivatives represent a very attractive class of materials for electronic devices. These compounds have high melting points, glass transitions temperatures and morphological stability, which makes these materials suitable for organic electronic applications. In addition, some of spirobifluorenes can form porous supramolecular associations with significant volumes available for the inclusion of guests. These molecular associations based on the spirobifluorenes are noteworthy because they are purely molecular analogues of zeolites and other microporous solids, with potential applications in separation, catalysis, sensing and other areas.

Electronic origin of bond softening and hardening in femtosecond-laser-excited magnesium

Many ultrafast structural phenomena in solids at high fluences are related to the hardening or softening of particular lattice vibrations at lower fluences. In this paper we relate femtosecond-laser-induced phonon frequency changes to changes in the electronic density of states, which need to be evaluated only in the electronic ground state, following phonon displacement patterns. We illustrate this relationship for a particular lattice vibration of magnesium, for which we—surprisingly—find that there is both softening and hardening as a function of the femtosecond-laser fluence. Using our theory, we explain these behaviours as arising from Van Hove singularities: We show that at low excitation densities Van Hove singularities near the Fermi level dominate the change of the phonon frequency while at higher excitations Van Hove singularities that are further away in energy also become important. We expect that our theory can as well shed light on the effects of laser excitation of other materials.