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Die Logik der bisher erforschten und beschriebenen Management- und Führungstheorien müssen sich im Zeitalter der Digitalisierung weiterentwickeln. Die ursprüngliche Forschungsfrage nach einer wirksamen Implementierung von strategischen Entscheidungen passt nicht mehr zur Realität von disruptiven Veränderungen in der sogenannten VUCA Welt (Volatile, uncertain, complex, ambiguous).
Die Arbeit ist mutig und wertvoll, weil sie die Lücke zwischen neuen Entwicklungen in der Praxis und fehlenden umfassenden Theoriekonzepten in den Management-, Führungs- und Organisationswissenschaften offenlegt und zu schließen hilft.
Der erste Teil der Arbeit fasst die aktuellen Erkenntnisse rund um strategische Entscheidungsfindung in Unternehmen, globale Megatrends als Rahmenbedingung und Change-Management als Umsetzungshilfe zusammen. Die Schlussfolgerung aus dieser holistischen Betrachtung ist, dass die Forschungsfrage rückwärts gerichtet die Realität des 20. Jahrhunderts adressiert und für das Zeitalter der Digitalisierung keine hilfreiche Antwort bietet.
Vielmehr geht es um die weiter entwickelte Forschungsfrage, wie anpassungsfähige Organisationen entwickelt und gepflegt werden können. Solche Organisationen überleben disruptive Veränderungen nicht nur irgendwie, sondern sind so gestaltet, dass sie diese nutzen, um immer wieder neue Antworten auf sich entwickelnde Kundenbedürfnisse und in der internen Organisation zu finden.
Diese anpassungsfähige oder adaptive Organisation hat fünf wesentliche Dimensionen, die im zentralen Teil der Arbeit beleuchtet werden. Alle Themen entwickeln sich derzeit laufend weiter, so dass es noch keine letztgültige Antwort gibt welche Methoden sich durchsetzen werden.
Im Sinne eines holistischen Transformationsmanagements gibt das letzte Kapitel Hinweise auf die Herangehensweise, um die eigene Organisation in ihrer Anpassungsfähigkeit weiter zu entwickeln.
Die gründliche Diskussion einer Fülle von konzeptionellen Ansätzen in Verbindung mit einer bemerkenswerten Erfahrung der Autorin erlaubt es, die auftretende Problemstellung profunder anzugehen als bei einer rein akademischen Herangehensweise.
The notions self-organisation and self-regulation are at least implicitly loaded with a positive democratic connotation. The main corresponding debates on social movements, governance and civil society mostly refer to the Global North with a well-functioning state and democratic political systems. One consequence is that the less democratic and less liberal hidden side of self-organisation, seen by some critics, does not gain much attention.
After a short discussion of the main theoretical approaches, the paper presents a selection of self-organised groups depicting their different values, norms, and structural features. These examples reach from democratic groups marked by solidarity to racist violent groups that are a threat to differently minded people. The analysis of these examples leads to a set of criteria for the comparative analysis of the internal structure of self-organised groups including potential membership, in- and outward orientation, underlying basic principles of social order and types of trust with related types of decision-making. These basic elements help to understand the constitution and functioning of self-organisation, which are open to a wide range of value orientation.
Poröse funktionelle Materialien sind vielversprechende Kandidaten für Anwendungen wie zum Beispiel in der heterogenen Katalyse, in Sensormaterialien, für die Gasspeicherung sowie –separation oder in Membranen. Eine besondere Klasse solcher Materialien stellen die organischen Käfigverbindungen dar, da sie im Vergleich zu netzwerkartigen Strukturen einzigartige Eigenschaften aufweisen. Das Gerüst des Tribenzotriquinacens (TBTQ) besitzt drei zueinander orthogonal stehende Indaneinheiten, sodass es sich optimal als Baustein für die effiziente Synthese organischer Käfigmoleküle eignet.
In dieser Arbeit wird die Synthese molekularer Würfel, Tetraeder und Bipyramiden mittels Quervernetzung der Catecholeinheiten der TBTQ-Bausteine mit verschiedenen Diboronsäuren beschrieben. Die Struktur und die Form der molekularen Objekte sind dabei durch die Geometrie der entsprechenden Diboronsäuren vorgegeben. Bemerkenswert ist, dass in ternären Mischungen der Bausteine das Phänomen der Selbssortierung zu beobachten ist. Sowohl narzisstische als auch soziale Selbstsortierung konnte hierbei festgestellt werden.
Darüber hinaus wurde für den bipyramidalen Käfig Wirt-Gast Komplexierung beobachtet. Die Fullerene C60 und C70 wurden nahezu quantitativ in das Molekül eingeschlossen. Weitere Untersuchungen zu diesem Verhalten zeigten in einer kompetitiven Mischung aus C60 und C70 eine Präferenz des Käfigmoleküls zu C60.
Eine Reihe von Acetylen-verknüpften Perylenbisimid(PBI)-Makrozyklen mit unterschiedlicher Ringgröße wurde durch Palladium-katalysierte Homokupplung synthetisiert und mit Hilfe von Recycling-GPC getrennt. Diese Makrozyklen wurden durch NMR-Spektroskopie und Massenspektrometrie charakterisiert und weiterhin die photophysikalischen Eigenschaften durch UV/Vis-Absorptions- und Fluoreszenzemissions-Messungen untersucht. Die Selbstorganisation dieser PBI-Makrozyklen zu hochgeordneten Nanostrukturen auf HOPG-Oberflächen wurde mittels Rasterkraftmikroskopie untersucht.
The role of elastic interactions, particularly for the self-organized formation of periodically faceted interfaces, was investigated in this thesis for archetype organic-metal interfaces. The cantilever bending technique was applied to study the change of surface stress upon formation of the interface between 3,4,9,10-perylene-tetracarboxylic-dianhydride (PTCDA) and Ag(111). This system is known to form a chemisorptive bonding. Indeed, the sign and the coverage-dependence of the surface stress change are in agreement to models and previous measurements of chemisorptive systems in literature. While the adsorption of molecules into the large domains is associated with a negative, i.e. compressive stress change, the formation of domain boundaries in the molecular layer induces a stress change of opposite sign, increasing the surface stress. The magnitude of the surface stress change of (-0.30 +- 0.10} N/m reflects a relatively weak binding of a PTCDA molecule to each individual single silver atom. It is emphasized, however, that if normalized to the surface stress change per molecule, this value corresponds to a stress change of (-2.2 +- 0.2) eV per molecule which is in the order of the suspected binding energy of this system. Therefore, these experiments reveal elastic interactions to be of significant order of magnitude for this system class. Thereby, they add a new point of view to the understanding of these interfaces. Besides, since the results are in agreement with the well-known properties of this interface, they establish the cantilever bending technique in the field of organic-metal interfaces. The mere existence of a bending of the sample implies an interesting detail for the PTCDA/Ag(111) interface in particular. It is the first experimental evidence for a structural change in the topmost substrate layers upon adsorption of PTCDA on Ag(111). Since such a modification has significant implications for the interpretation of other experimental results, a further investigation with more quantitative structural methods appears necessary. The main focus of this work, however, was on the investigation of the formation of the long-range ordered, self-organized faceted PTCDA/Ag(10 8 7) interface. Reciprocal space maps of this interface were recorded both by spot profile analysis low energy electron diffraction (SPA-LEED) and low energy electron microscopy (LEEM) in selected area LEED mode. Complementary to the reciprocal data, also microscopic real-space LEEM data were used to characterize the morphology of this interface. Six different facet faces ((111), (532), (743), (954), (13 9 5), and (542)) were observed for the preparation path of molecular adsorption on the substrate kept at 550 K. Facet-sensitive dark-field LEEM localized these facets to grow in homogeneous areas of microscopic extensions. If the pristine mesoscopic orientation locally deviates from the average orientation, e.g. in pristine step density, locally different facet types are formed, distorting the otherwise regular mesoscopic pattern. Hence, the original mesoscopic orientation of the substrate strongly determines the degree of order of the faceted surface and the facet species formed. The temperature-dependence of the interface formation was studied in a range between 418 K and 612 K in order to learn more about the kinetics of the process. Additional steeper facets of 27° inclination with respect to the (111) surface were observed in the low temperature regime. Furthermore, using facet-sensitive dark-field LEEM, spatial and size distributions of specific facets were studied for the different temperatures. The nucleation density of the facets did not depend on temperature and can therefore be concluded not to be limited by diffusion. Moreover, the facet dimensions were statistically analyzed. The total island size of the facets follows an exponential distribution, indicating a random growth mode in absence of any mutual facet interactions. While the length distribution of the facets also follows an exponential distribution, the width distribution is peaked, reflecting the high degree of lateral order. This anisotropy is temperature-dependent and occurs starting above 478 K substrate temperature during growth. The peaked distribution indicates the presence of a long-range interaction which leads to the structural order of the self-organized grating. The origin of this long-range interaction was investigated combining three complementary in-situ methods, all providing new insights into the formation of faceted organic-metal interfaces: the cantilever bending technique, high-resolution low energy electron diffraction (SPA-LEED), and microscopy (LEEM). The cantilever bending technique was applied for the first time to a faceting system at all. Below the faceting transition temperature the surface stress change associated with the formation of the PTCDA/Ag(10 8 7) interface resembles in shape and magnitude the one observed for the reference interface PTCDA/Ag(111). But above the transition temperature the absolute surface stress change of (-0.67 +- 0.10) N/m observed for the faceted PTCDA/Ag(10 8 7) interface is considerably larger than for the previous cases. Moreover, the stress change happens in distinguishable stages with a clearly resolvable fine structure of regimes of positive and negative stress changes. These different regimes of surface stress change can be correlated to different stages of the structural phase transition observed by the structural in-situ methods. Thereby, morphological objects (i.e. the facets) are assigned to a specific stress character. Thus, domains of different stress character can be identified on the surface. These stress domains are the prerequisite to apply continuum descriptions of the self-ordering process based on elastic interactions. Hence, the results are the first experimental verification that these continuum descriptions are indeed also applicable to the whole system class of faceting organic-metal interfaces. In conclusion, the results provide strong evidence for elastic interactions being the physical origin of long-range order for this system. In addition, the clear correlation of structural phase transition and surface stress change regimes suggests surface stress to play also an important role for the kinetics of the system. Indeed, the system seems to try to limit the overall stress change during the interface formation by forming facets of positive and negative stress character. Hence, the selection of specific facets could depend on the corresponding stress character. Furthermore, the system seems willing to re-facet at high coverages in order to prevent imperfect domain boundaries which are associated with an increase of surface stress. Finally, template-assisted growth of lateral, heterorganic nanostructures has been explored. Therefore, self-assembled monolayers as a second archetype class of molecules were grown on partially covered PTCDA/Ag(10 8 7) interfaces. Indeed, using standard surface science techniques, the basic principle of this growth scheme was confirmed to be successful.
Within this thesis, synthetic strategies for self-assembled organic cage compounds have been developed that allow for both stimuli-responsive control over assembly/disassembly processes and spatial control over functionalization. To purposefully operate the reversible assembly of organic cages, boron-nitrogen dative bonds have been exploited for the formation of a well-defined, discrete bipyramidal organic assembly in solution. Thermodynamic association equilibria for cage formation have been investigated by Isothermal Titration Calorimetry (ITC). Temperature-dependent NMR studies revealed a reversible cage opening upon heating and quantitative reassembly upon cooling. For the spatial functionalization of organic cages, two divergent molecular building units have been designed and synthesized, namely tribenzotriquinacene derivatives possessing a terminal alkyne moiety at the apical position and a meta-diboronic acid having a pyridyl group at the 2-position. Facile access to a variety of apically functionalized tribenzotriquinacenes has been illustrated by post-synthetic modifications at the terminal alkyne group by Sonogashira cross-coupling and azide-alkyne click reactions. Finally, these apically functionalized tribenzotriquinacene building blocks have been implemented into boronate ester-based organic cage compounds showing modular exohedral functionalities.
The main objective of this thesis was the design and synthesis of perylene bisimide dyes with sufficient water-solubility for the construction of self-assembled architectures in aqueous solutions. Beside these tasks another goal of this project was the control over the self-assembly process in terms of aggregate size and helicity, respectively. Within this thesis an appropriate synthesis for spermine-functionalized perylene bisimide dyes was developed and conducted successfully. The characterization of these building blocks and their course of self-assembly were investigated by NMR, UV/Vis and fluorescence spectroscopy as well as by atomic force and transmission electron microscopy. For the better understanding of the experimental results theoretical calculations were performed.
The present thesis demonstrates the potential of dipolar aggregation of merocyanine dyes as novel directional and specific supramolecular binding motif for the creation of more elaborate supramolecular architectures beyond simple dimers. Furthermore, the self-assembly studies into bis(merocyanine) nanorods gave new insights into the kinetics of morphogenesis in supramolecular aggregates.
The presented work in the field of supramolecular chemistry describes the synthesis and detailed investigation of (bi)pyridine-based oligo(phenylene ethynylene) (OPE) amphiphiles, decorated with terminal glycol chains. The metal-ligating property of these molecules could be exploited to coordinate to Pd(II) and Pt(II) metal ions, respectively, resulting in the creation of novel metallosupramolecular π-amphiphiles of square-planar geometry.
The focus of the presented studies is on the self-assembly behaviour of the OPE ligands and their corresponding metal complexes in polar and aqueous environment. In this way, the underlying aggregation mechanism (isodesmic or cooperative) is revealed and the influence of various factors on the self-assembly process in supramolecular systems is elucidated. In this regard, the effect of the molecular design of the ligand, the coordination to a metal centre as well as the surrounding medium, the pH value and temperature is investigated.
Diese Arbeit beschäftigt sich mit der Selbstorganisation von Zinkchlorin-Farbstoffen, welche sich strukturell von Chlorophyllen ableiten. Im Gegensatz zu allen anderen bakteriellen und pflanzlichen Lichtsammelpigmenten ist es den Bakteriochlorophyllen c, d und e der Lichtsammelsysteme grüner phototropher Bakterien möglich, allein durch nichtkovalente Wechselwirkungen zwischen den Farbstoff-Molekülen, ohne die Beteiligung von Proteinen, röhrenförmige Antennensysteme auszubilden, welche die am dichtest gepackten und effizientesten Lichtsammelsysteme in der Natur darstellen. Um einen Betrag zur Aufklärung dieser biologisch wichtigen Aggregate zu leisten, wurden im ersten Teil dieser Arbeit Zinkchlorine als Modellverbindungen für BChl c hergestellt. Mit den neu synthetisierten Zinkchlorinen ist es gelungen, Modellsysteme der natürlichen BChl-Selbstorganisate herzustellen, welche sich im Gegensatz zu den bisher in der Literatur beschriebenen Zinkchlorin-Aggregaten durch eine gute und dauerhafte Löslichkeit auszeichnen. Diese Eigenschaft erlaubte es sowohl spektroskopische als auch mikroskopische Untersuchungen zur Aufklärung der Aggregatstruktur durchzuführen. Durch Rasterkraftmikroskopie an den Zinkchlorin Aggregaten konnte erstmals ein mikroskopischer Beweis der stabförmigen Struktur von Aggregaten dieser Substanzklasse erhalten werden. Der zweite Teil dieser Arbeit beschäftigt sich mit Zinkchlorinen, denen aufgrund einer methylierten 31-Hydroxy-Gruppe die Fähigkeit zur Röhrenbildung fehlt, die aber durch Koordinationsbindungen und p-p-Wechselwirkungen weiterhin Stapel bilden können. Temperaturabhängige UV/Vis- und CD-spektroskopische Studien offenbarten die reversible Bildung von löslichen, chiralen Zinkchlorin-Stapelaggregaten. Rasterkraft- und rastertunnelmikroskopische Untersuchungen zeigen die Bildung von zwei Typen p-gestapelter Aggregate auf hoch geordnetem Graphit.