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Das Forschungsprojekt „Dorfgemeinschaft 2.0“ hat zum Ziel, dem Bedürfnis der Bürger_innen nachzukommen, auch im Alter zu Hause wohnen bleiben zu können. Die Gesundheitsversorgung im ländlichen Raum steht im Mittelpunkt. Hierfür werden regional angepasste Lösungsstrategien anhand des Design Science Ansatzes entworfen und individuelle Wünsche und Bedarfe multiperspektivisch in den Blick genommen. Vier der so entstandenen Versorgungskonzepte werden als nutzerorientierte alltags und gesundheitsbezogene Ansätze vorgestellt. Zudem werden die angedachten Kommunikationsstrukturen und das Zusammenwirken der Konzepte als Versorgungsnetz auf dem virtuellen Dorfmarktplatz beschrieben.
After hesitating until the mid-2010s, German industry has now embraced the energy transition and moved to a driver. The pioneers of change are the major energy companies, followed large parts of industry which have initiated radical changes. Even the energy-intensive industries steel and chemistry are phasing out fossil fuels.
Die Digitalisierung hat in den letzten Jahren für Privatpersonen und Unternehmen zunehmend an Bedeutung gewonnen und die Art des gesellschaftlichen Zusammenlebens erheblich verändert. Das gilt natürlich auch für die Arbeit in Steuerkanzleien. In welchen Punkten dort veränderte oder neue Anforderungen an Mitarbeitende und ihre Kompetenzen feststellbar sind und inwiefern darauf auch schon bei der Ausbildung im dualen Studium reagiert werden kann, zeigt dieser Beitrag auf, der das Studium der Wirtschaftsinformatik mit Steuermodulen vorstellt.
The current study presents a new class of functional derivatives (1–3) consisting of a dicationic viologen (4,4’-bipyridinium unit) (V21) capped by nucleobases thymine (NB1), adenine (NB2), thymine/adenine (NB1, NB2), and ion-paired with amphiphilic anion 3,4,5-tris(dodecyloxy)benzene sulfonate (DOBS-). The target of our work focuses on the design and synthesis of molecular building blocks in which three different functionalities are combined: chromophore (V21 unit), molecular recognition (NB unit), and thermotropic liquid crystal (DOBS unit). The resulted materials exhibit liquid crystalline properties at ambient temperature with significant particularities-induced by nucleobases in the mesogen structure. Structure–properties relationship study focuses on providing knowledge about (1) how the thermotropic, redox properties, thermochromism, or ionic conductive properties are influenced by the presence of purinic or pyrimidinic nucleobases, and (2) how effective is their ability to selfassembly by hydrogen bonding in nonpolar solvents. The presence of nucleobases has been proved to have a substantial impact on electron transfer rate during the reduction of viologen moieties by intermolecular aggregation. Ionic conductivity and thermochromic properties of derivatives 1–3 were investigated and compared to a non-containing nucleobase analog methyl viologen with 3,4,5 tris(dodecyloxy)benzene sulfonate anion (MV) as reference.
Container-based lightweight buildings offer a high ecologic and economic potential when they are designed as nearly zero-energy container buildings (NZECBs). Thus, they are relevant to energy transition in achieving an almost climate-neutral building stock. This paper describes and applies design strategies for suitable building concepts and energy systems to be used in NZECBs for different climates. Therefore, different applications in representative climatic zones were selected. Initially, the global climate zones were characterized and analyzed with regard to their potential for self-sufficiency and renewable energies in buildings. The design strategies were further developed and demonstrated for three cases: a single-family house in Sweden, a multi-family house in Germany, and a small school building in rural Ethiopia. For each case, design guidelines were derived and building concepts were developed. On the basis of these input data, various energy concepts were developed in which solar and wind energy, as well as biomass, were integrated as renewable energy sources. All the concepts were simulated and analyzed with the Polysun® software. The various approaches were compared and evaluated, particularly with regard to energy self-sufficiency. Self-sufficiency rates up to 80% were achieved. Finally, the influence of different climate zones on the energy efficiency of the single-family house was studied as well as the influence of the size of battery storage and insulation.