Refine
Has Fulltext
- yes (1554)
Is part of the Bibliography
- yes (1554) (remove)
Year of publication
- 2021 (1554) (remove)
Document Type
- Journal article (930)
- Doctoral Thesis (527)
- Complete part of issue (45)
- Book (12)
- Working Paper (8)
- Other (7)
- Conference Proceeding (5)
- Master Thesis (5)
- Book article / Book chapter (4)
- Preprint (4)
Language
- English (1140)
- German (410)
- Spanish (3)
- Multiple languages (1)
Keywords
- Wuerzburg (46)
- Wurzburg (45)
- Würzburg (45)
- University (44)
- Universität (44)
- COVID-19 (20)
- inflammation (17)
- boron (13)
- virtual reality (13)
- SARS-CoV-2 (11)
Institute
- Theodor-Boveri-Institut für Biowissenschaften (175)
- Graduate School of Life Sciences (124)
- Institut für Anorganische Chemie (73)
- Medizinische Klinik und Poliklinik I (71)
- Klinik und Poliklinik für Allgemein-, Viszeral-, Gefäß- und Kinderchirurgie (Chirurgische Klinik I) (61)
- Medizinische Klinik und Poliklinik II (60)
- Institut für Psychologie (56)
- Neurologische Klinik und Poliklinik (51)
- Institut für Organische Chemie (49)
- Institut für Informatik (46)
Schriftenreihe
Sonstige beteiligte Institutionen
- DFG Forschungsgruppe 2757 / Lokale Selbstregelungen im Kontext schwacher Staatlichkeit in Antike und Moderne (LoSAM) (2)
- Klinikum Fulda (2)
- Ökologische Station Fabrikschleichach (2)
- Airbus Defence and Space GmbH (1)
- Akademie der Wissenschaften und der Literatur, Mainz (1)
- Apotheke, Universitätsklinikum Würzburg (1)
- Biomedical Center Munich, Department of Physiological Chemistry, Ludwig-Maximilians-Universität München (1)
- Bundeswehr Institute of Radiobiology affiliated to the University of Ulm, Munich, Germany (1)
- Clinical Trial Center (CTC) / Zentrale für Klinische Studien Würzburg (ZKSW) (1)
- Cologne Game Lab (1)
Um eine Signaltransduktion mittels agnostischer Antikörper an Rezeptoren der TNFRSF zu bewirken, ist eine vorherige Immobilisation über des Fc Anteil des Antikörpers Grundvorraussetzung. In dieser Arbeit sollte die Möglichkeit der Verankerung über eine andere Bindungsdomäne untersucht werden. Es konnte gezeigt werden, dass eine Immobilisation mittels scFv:CD70 zu einer starken Signalaktivierung führt.
Clearly, in nature, but also in technological applications, complex systems built in an entirely ordered and regular fashion are the exception rather than the rule. In this thesis we explore how critical phenomena are influenced by quenched spatial randomness. Specifically, we consider physical systems undergoing a continuous phase transition in the presence of topological disorder, where the underlying structure, on which the system evolves, is given by a non-regular, discrete lattice. We therefore endeavour to achieve a thorough understanding of the interplay between collective dynamics and quenched randomness.
According to the intriguing concept of universality, certain laws emerge from collectively behaving many-body systems at criticality, almost regardless of the precise microscopic realization of interactions in those systems. As a consequence, vastly different phenomena show striking similarities at their respective phase transitions. In this dissertation we pursue the question of whether the universal properties of critical phenomena are preserved when the system is subjected to topological perturbations. For this purpose, we perform numerical simulations of several prototypical systems of statistical physics which show a continuous phase transition. In particular, the equilibrium spin-1/2 Ising model and its generalizations represent -- among other applications -- fairly natural approaches to model magnetism in solids, whereas the non-equilibrium contact process serves as a toy model for percolation in porous media and epidemic spreading. Finally, the Manna sandpile model is strongly related to the concept of self-organized criticality, where a complex dynamic system reaches a critical state without fine-tuning of external variables.
Our results reveal that the prevailing understanding of the influence of topological randomness on critical phenomena is insufficient. In particular, by considering very specific and newly developed lattice structures, we are able to show that -- contrary to the popular opinion -- spatial correlations in the number of interacting neighbours are not a key measure for predicting whether disorder ultimately alters the behaviour of a given critical system.
Temporal development of communities with a focus on insects, in time series of one to four decades
(2021)
Changes and development are fundamental principles in biocenoses and can affect a multitude of ecological processes. In insect communities phenological and density changes, changes in species richness and community composition, as well as interactions between those changes, are the most important macro processes. However, climate change and other factors like habitat degradation and loss alter these processes leading to shifts and general biodiversity declines. Even though knowledge about insect decline in central Europe increased during the last decades, there are significant knowledge gaps about the development of insect communities in certain habitats and taxa. For example, insect communities in small lentic as well as in forested habitats are under-sampled and reported to be less endangered than communities in other habitats. Furthermore, the changes within habitats and taxa are additionally influenced by certain traits, like host or feeding specialization. To disentangle these influences and to increase the knowledge about the general long-term development of insect communities, comprehensive long-term monitoring studies are needed. In addition, long-term effects of conservation strategies should also be evaluated on large time scales in order to be able to decide on a scientific base which strategies are effective in promoting possibly declining taxa. Hence, this thesis also tackles the effects of an integrative conservation strategy on wood dependent beetle and fungi, beside the development of water beetle and macro moth communities over multiple decades. In Chapter 2 I present a study on the development of water beetle communities (Dytiscidae, Haliplidae, Noteridae) in 33 water bodies in Southern Germany from 1991 to 2018. Time-standardized capture per waterbody was used during three periods: between 1991 and 1995, 2007 and 2008, and 2017 and 2018. Results showed annual declines in both species number (ca. -1%) and abundance (ca. -2%). In addition, community composition shifted over time in part due to changing pH values. Hence, the recorded changes during the 28-year study period partly reflect natural succession processes. However, since also moor-related beetle species decreased significantly, it is likely that water beetles in southern Germany are also threatened by non-successional factors, including desiccation, increased nitrogen input and/or mineralization, as well as the loss of specific habitats. The results suggest, that in small to midsize lentic waterbodies, current development should aim for constant creation of new water bodies and protection of moor waterbodies in order to protect water beetle communities on a landscape scale. In Chapter 3 I present an analysis of the development of nocturnal macro moth species richness, abundance and biomass over four decades in forests of southern Germany. Two local scale data sets featuring a coppiced oak forest as well as an oak high forest were analysed separately from a regional data set representing all forest types in the temperate zone of Central Europe. At the regional scale species richness, abundance and biomass showed annual declines of ca. 1 %, 1.3 % and 1.4 %, respectively. These declines were more pronounced in plant host specialists and in dark coloured species. In contrast, species richness increased by ca. 1.5 % annually in the coppiced forest, while no significant trends were found in the high forest. In contrast to past assumptions, insect decline apparently affects also hyper diverse insect groups in forests. Since host specialists and dark coloured species were affected more heavily by the decline than other groups, habitat loss and climate change seem to be potential drivers of the observed trends. However, the positive development of species richness in the coppiced oak forest indicates that maintaining complex and diverse forest ecosystems through active management might compensate for negative trends in biodiversity. Chapter 4 features a study specifically aiming to investigate the long-term effect of deadwood enrichment as an integrative conservation strategy on saproxylic beetles and fungi in a central European beech forest at a landscape scale. A before–after control–impact design, was used to compare assemblages and gamma diversities of saproxylic organisms (beetles and fungi) in strictly protected old-growth forest areas (reserves) and previously moderately and intensively managed forest areas. Forests were sampled one year before and a decade after starting a landscape-wide strategy of dead-wood enrichment. Ten years after the start of the dead-wood enrichment, neither gamma diversities of saproxylic organisms nor species composition of beetles did reflect the previous management types anymore. However, fungal species composition still mirrored the previous management gradient. The results demonstrated that intentional enrichment of dead wood at the landscape scale can effectively restore communities of saproxylic organisms and may thus be a suitable strategy in addition to permanent strict reserves in order to protect wood dependent organisms in Europe. In this thesis I showed, that in contrast to what was assumed and partly reported so far, also water beetles in lentic water bodies and macro moths in forests decreased in species richness, abundance and biomass during the last three to four decades. In line with earlier studies, especially dark coloured species and specialists decreased more than light-coloured species and generalists. The reasons for these declines could partly be attributed to natural processes and pollution and possibly to climate change. However, further studies, especially experimental ones, will be needed to achieve a better understanding of the reasons for insect decline. Furthermore, analyses of time series data should be interpreted cautiously especially if the number of sampling years is smaller than ten years. In addition, validation techniques such as left- and right- censoring and cross validation should be used in order to proof the robustness of the analyses. However, the lack of knowledge, we are still facing today, should not prevent scientists and practitioners from applying conservation measures. In order to prove the effectiveness of such measures, long-term monitoring is crucial. Such control of success is essential for evidence based and thus adapted conservation strategies of threatened organisms.
Pertussis is a highly contagious acute respiratory disease of humans which is mainly caused by the gram-negative obligate human pathogen Bordetella pertussis. Despite the availability and extensive use of vaccines, the disease persists and has shown periodic re-emergence resulting in an estimated 640,000 deaths worldwide in 2014. The pathogen expresses various virulence factors that enable it to modulate the host immune response, allowing it to colonise the ciliated airway mucosa. Many of these factors also directly interfere with host signal transduction systems, causing damage to the ciliated airway mucosa and increase mucous production. Of the many virulence factors of B. pertussis, only the tracheal cytotoxin (TCT) is able to recapitulate the pathophysiology of ciliated cell extrusion and blebbing in animal models and in human nasal biopsies. Furthermore, due to the lack of appropriate human models and donor materials, the role of bacterial virulence factors has been extrapolated from studies using animal models infected with either B. pertussis or with the closely related species B. bronchiseptica which naturally causes respiratory infections in these animals and produces many similar virulence factors. Thus, in the present work, in vitro airway mucosa models developed by co-culturing human airway epithelia cells and fibroblasts from the conduction zone of the respiratory tract on a decellularized porcine small intestine submucosa scaffold (SISser®) were used, since these models have a high correlation to native human conducting zone respiratory epithelia. The major aim was to use the engineered airway mucosa models to elucidate the contribution of B. pertussis TCT in the pathophysiology of the disease as well as the virulence mechanism of B. pertussis in general. TCT and lipopolysaccharide (LPS) either alone or in combination were observed to induce epithelial cell blebbing and necrosis in the in vitro airway mucosa model. Additionally, the toxins induced viscous hyper-mucous secretion and significantly disrupted barrier properties of the in vitro airway mucosa models. This work also sought to assess the invasion and intracellular survival of B. pertussis in the polarised epithelia, which has been critically discussed for many years in the literature. Infection of the models with B. pertussis showed that the bacteria can adhere to the models and invade the epithelial cells as early as 6 hours post inoculation. Invasion and intracellular survival assays indicated the bacteria could invade and persist intracellularly in the epithelial cells for up to 3 days. Due to the novelty of the in vitro airway mucosa models, this work also intended to establish a method for isolating individual cells for scRNA-seq after infection with B. pertussis. Cold dissociation with Bacillus licheniformis subtilisin A was found to be capable of dissociating the cells without inducing a strong fragmentation, a problem which occurs when collagenase and trypsin/EDTA are used. In summary, the present work showed that TCT acts possibly in conjunction with LPS to disrupt the human airway mucosa much like previously shown in the hamster tracheal ring models and thus appears to play an important role during the natural B. pertussis infection. Furthermore, we established a method for infecting and isolating infected cells from the airway mucosa models in order to further investigate the effect of B. pertussis infection on the different cell populations in the airway by single cell analytics in the future.
Rezente Studien mit kleineren Fallzahlen offenbaren bei Patienten mit chronischer Nebenniereninsuffizienz eine sehr negative Krankheitswahrnehmung, große Ängste und Sorgen hinsichtlich der Substitutionstherapie mit Glucocorticoiden sowie eine geringe Therapieadhärenz.
Ziel der vorliegenden Beobachtungsstudie war es daher im Rahmen einer monozentrischen Querschnittstudie nebenniereninsuffiziente Patienten zu Therapieadhärenz, subjektiver Krankheits- und Glucocorticoidwahrnehmung und Zufriedenheit mit erhaltenen Informationen zu befragen. Zudem wurden erstmalig die Zusammenhänge zwischen der Teilnahme an einer standardisierten NNI-Schulung und oben genannten Aspekten im Rahmen einer multizentrischen Längschnittstudie untersucht.
Die Ergebnisse der Querschnittstudie zeichnen insgesamt ein deutlich positiveres Bild von der subjektiven Krankheits- und Therapiewahrnehmung als bisher in der Literatur beschrieben. Die subjektive Therapieadhärenz war hoch. Zudem waren Sorgen und Ängste hinsichtlich der Glucocorticoid-Substitution geringer ausgeprägt als erwartet. Nichtsdestotrotz ließ sich konkordant zu früheren Publikationen eine zum Teil sehr große Unzufriedenheit mit erhaltenen Informationen zu möglichen Problemen der Glucocorticoid-Substitution feststellen. Die Ergebnisse der Längschnittstudie deuten darauf hin, dass die standardisierte Patientenschulung ein geeignetes Instrument sein könnte, um die Zufriedenheit von Patienten mit NNI zu steigern, das Selbstmanagement zu stärken und gleichzeitig positiven Einfluss auf die Wahrnehmung der Substitutionstherapie nehmen könnte.
Clinical practice in CMR with respect to cardiovascular disease is currently focused on tissue characterization, and cardiac function, in particular. In recent years MRI based diffusion tensor imaging (DTI) has been shown to enable the assessment of microstructure based on the analysis of Brownian motion of water molecules in anisotropic tissue, such as the myocardium. With respect to both functional and structural imaging, 7T MRI may increase SNR, providing access to information beyond the reach of clinically applied field strengths. To date, cardiac 7T MRI is still a research modality that is only starting to develop towards clinical application.
In this thesis we primarily aimed to advance methods of ultrahigh field CMR using the latest 7T technology and its application towards the functional and structural characterization of the myocardium.
Regarding the assessment of myocardial microstructure at 7T, feasibility of ex vivo DTI of large animal hearts was demonstrated. In such hearts a custom sequence implemented for in vivo DTI was evaluated and fixation induced alterations of derived diffusion metrics and tissue properties were assessed. Results enable comparison of prior and future ex vivo DTI studies and provide information on measurement parameters at 7T.
Translating developed methodology to preclinical studies of mouse hearts, ex vivo DTI provided highly sensitive surrogates for microstructural remodeling in response to subendocardial damage. In such cases echocardiography measurements revealed mild diastolic dysfunction and impaired longitudinal deformation, linking disease induced structural and functional alterations. Complementary DTI and echocardiography data also improved our understanding of structure-function interactions in cases of loss of contractile myofiber tracts, replacement fibrosis, and LV systolic failure.
Regarding the functional characterization of the myocardium at 7T, sequence protocols were expanded towards a dedicated 7T routine protocol, encompassing accurate cardiac planning and the assessment of cardiac function via cine imaging in humans.
This assessment requires segmentation of myocardial contours. For that, artificial intelligence (AI) was developed and trained, enabling rapid automatic generation of cardiac segmentation in clinical data. Using transfer learning, AI models were adapted to cine data acquired using the latest generation 7T system. Methodology for AI based segmentation was translated to cardiac pathology, where automatic segmentation of scar tissue, edema and healthy myocardium was achieved.
Developed radiofrequency hardware facilitates translational studies at 7T, providing controlled conditions for future method development towards cardiac 7T MRI in humans.
In this thesis the latest 7T technology, cardiac DTI, and AI were used to advance methods of ultrahigh field CMR. In the long run, obtained results contribute to diagnostic methods that may facilitate early detection and risk stratification in cardiovascular disease.
Leukoplakien der Stimmlippe können verschiedene histopathologische Diagnosen wie beispielsweise Hyper- oder Parakeratosen, dysplastische Prozesse oder invasive Karzinome des Epithels zugrunde liegen.
Bisher werden klinisch detektierte Leukoplakien nach Probeexzision und histologischer Aufarbeitung anhand verschiedener histomorphologischer Klassifikationssysteme, wie zum Beispiel dem System der WHO oder dem „Ljubljana classification“-System, eingeordnet.
Hinsichtlich der Aussagekraft in Bezug auf die Prognose einer Entwicklung eines invasiven Plattenepithelkarzinoms sind die genannten Systeme jedoch eingeschränkt.
In der Raman-Spektroskopie wird das zu untersuchende Gewebe mit einem Laser bestrahlt. Die beim Durchdringen des Materials entstehende Raman-Streuung ist charakteristisch für verschiedene Moleküle und Bindungen. So kann mithilfe dieser Methodik auf die molekularbiologische Zusammensetzung des Gewebes geschlossen werden.
In dieser Arbeit wurde die Klassifikation verschiedener Dysplasiegrade des Stimmlippenepithels mittels Spektraldaten aus der Raman-Spektroskopie nachvollzogen und erörtert, ob aus den gewonnenen Informationen auf das Risiko der Entstehung eines invasiven Plattenepithelkarzinoms geschlossen werden kann.
Durch den Vergleich der Mittelwertspektren dysplasiefreier, dysplastischer und maligne entarteter Gewebeproben sowie der Methodik einer Hauptkomponentenanalyse kann auf eine unterschiedliche Zusammensetzung der Studiengruppen an Bestandteilen der DNA, Proteine, Lipide und Kohlenhydrate geschlossen werden.
Unter Verwendung einer linearen Diskriminanzanalyse wurden Modelle erstellt, um die Klassifizierbarkeit der verschiedenen Studiengruppen nachzuvollziehen. Außerdem wurden die Modelle auf die Aussagekraft einer Prognose hinsichtlich einer möglichen Karzinomentwicklung überprüft.
Durch diese Modelle können gute Differenzbarkeiten durch die Spektraldaten der einzelnen Studiengruppen untereinander erreicht werden. Zudem kann mit hoher Spezifität, Sensitivität und Genauigkeit prognostiziert werden, ob sich beim jeweiligen Patienten ein invasives Plattenepithelkarzinom der Stimmlippe entwickeln wird.
Um die erlangten Erkenntnisse zu validieren und das Verfahren in den klinischen Alltag zu integrieren, bedarf es jedoch prospektiver Studien.
Die Palliativmedizin gilt oft als ein vergleichsweise junges Themengebiet, welches in den zurückliegenden Jahrzehnten kontinuierlich an Bedeutung gewinnen konnte. Palliativmedizin ist jedoch keine reine Erfindung des 20. Jahrhunderts. So galt die Versorgung Schwerkranker oder Sterbender bereits viel früher als ärztliche Pflicht. Grundgedanke der Arbeit war es, palliativmedizinische Facetten im ärztlichen Handeln zu Beginn des 19. Jahrhunderts nachzuweisen. Hierzu erfolgte eine beispielhafte Betrachtung der chirurgische Hernien-Therapie des St. Johanns Spitals in Salzburg. Als Grundlage dienten handschriftlich verfasste Krankengeschichten des St. Johanns Spitals aus der ersten Hälfte des 19. Jahrhunderts. Neben der Detektion und einer vergleichenden Darstellung palliativmedizinischer Handlungsweisen gelang mit Hilfe der in ihrer Ausführlichkeit bemerkenswerten Primärquelle eine Darstellung der damaligen chirurgischen Hernientherapie am Salzburger St. Johanns Spital. Ergänzend erfolgt ein Vergleich mit zeitgenössischen Veröffentlichungen zur Thematik der Hernienchirurgie, welche sich zum damaligen Zeitpunkt am Vorabend zur Asepsis bereits in einem Prozess des Umbruchs befand.
The outcome of the innate immune response to biomaterials mainly determines whether the material will be incorporated in the body to fulfill its desired function or, when it gets encapsulated, will be rejected in the worst case. Macrophages are key players in this process, and their polarization state with either pro- (M1), anti-inflammatory (M2), or intermediate characteristics is crucial for deciding on the biomaterial’s fate. While a transient initial pro-inflammatory state is helpful, a prolonged inflammation deteriorates the proper healing and subsequent regeneration. Therefore, biomaterial-based polarization may aid in driving macrophages in the desired direction. However, the in vivo process is highly complex, and a mono-culture of macrophages in vitro displays only one part of the cellular system, but, to this date, there is a lack of established co-cultures to assess the immune response to biomaterials. Thus, this thesis aimed to establish a functional co-culture system of human macrophages and human mesenchymal stromal cells (hMSCs) to improve the assessment of the immune response to biomaterials in vitro. Together with macrophages, hMSCs are involved in tissue regeneration and inflammatory reactions and can modulate the immune response. In particular, endogenously derived hMSCs considerably contribute to the successful engrafting of biomaterials. This thesis focused on poly(ε-caprolactone) (PCL) fiber-based scaffolds produced by the technique of melt electrowriting (MEW) as biomaterial constructs. Via this fabrication technique, uniform, precisely ordered scaffolds varying in geometry and pore size have been created in-house.
To determine the impact of scaffold geometries and pore sizes on macrophages, mono-cultures incubated on scaffolds were conducted. As a pre-requisite to achieve a functional co-culture system on scaffolds, setups for direct and indirect systems in 2D have initially been established. These setups were analyzed for the capability of cell-cell communication. In parallel, a co-culture medium suitable for both cell types was defined, prior to the establishment of a step-by-step procedure for the co-cultivation of human macrophages and hMSCs on fiber-based scaffolds.
Regarding the scaffold morphologies tested within this thesis to improve M2-like polarization, box-shaped scaffolds outperformed triangular-, round- or disordered-shaped ones. Upon further investigation of scaffolds with box-shaped pores and precise inter-fiber spacing from 100 µm down to only 40 µm, decreasing pore sizes facilitated primary human macrophage elongation accompanied by their differentiation towards the M2 type, which was most pronounced for the smallest pore size of 40 µm. To the best of my knowledge, this was the first time that the elongation of human macrophages in a 3D environment has been correlated to their M2-like polarization. Thus, these results may set the stage for the design, the assessment, and the selection of new biomaterials, which can positively affect the tissue regeneration.
The cell communication of both cell types, detected via mitochondria exchange in direct and indirect co-cultures systems, took place in both directions, i.e., from hMSCs to macrophages and vice versa. Thereby, in direct co-culture, tunneling nanotubes enabled the transfer from one cell type to the respective other, while in indirect co-culture, a non-directional transfer through extracellular vesicles (EVs) released into the medium seemed likely. Moreover, the phagocytic activity of macrophages after 2D co-cultivation and hence immunomodulation by hMSCs increased with the highest phagocytic rate after 48 h being most pronounced in direct co-cultivation.
As the commonly used serum supplements for macrophages and hMSCs, i.e., human serum (hS) and fetal calf serum (FCS), respectively, failed to support the respective other cell type during prolonged cultivation, these sera were replaced by human platelet lysate (hPL), which has been proven to be the optimal supplement for the co-cultivation of human macrophages with hMSCs within this thesis. Thereby, the phenotype of both cell types, the distribution of both cell populations, the phagocytic activity of macrophages, and the gene expression profiles were maintained and comparable to the respective standard mono-culture conditions. This was even true when hPL was applied without the anticoagulant heparin in all cultures with macrophages, and therefore, heparin was omitted for further experiments comprising hPL and macrophages.
Accordingly, a step-by-step operating procedure for the co-cultivation on fiber-based scaffolds has been established comprising the setup for 3D cultivation as well as the description of methods for the analysis of phenotypical and molecular changes upon contact with the biomaterial. The evaluation of the macrophage response depending on the cultivation with or without hMSCs and either on scaffolds or on plastic surfaces has been successfully achieved and confirmed the functionality of the suggested procedures.
In conclusion, the functional co-culture system of human macrophages and hMSCs established here can now be employed to assess biomaterials in terms of the immune response in a more in vivo-related way. Moreover, specifically designed scaffolds used within the present thesis showed auspicious design criteria positively influencing the macrophage polarization towards the anti-inflammatory, pro-healing type and might be adaptable to other biomaterials in future approaches.
Hence, follow-up experiments should focus on the evaluation of the co-culture outcome on promising scaffolds, and the suggested operating procedures should be adjusted to further kinds of biomaterials, such as cements or hydrogels.
Zu Beginn dieser Arbeit galten Kupfer(I)-emitter als vielversprechende Alternativen zu den bis dato führenden Iridium(III)-emittern, waren dabei aber nur sehr selten tatsächlich kompetitiv. Die oftmals verwendenten chelatisierenden Diimin- bzw. Phosphanliganden als π-Chromophorligand ermöglichten bei diesen Kupfer(I)-emittern die Nutzung von TADF als Emissionsmechanismus, womit in seltenen Fällen strahlenden Ratenkonstanten von kr > 105 s-1 erreicht wurden. Diese Werte konnten allerdings nicht für den gesamten sichtbaren Spektralbereich erzielt werden, was auf eingeschränkte Modifikationsmöglichkeiten sowie unvollständige Struktur-Eigenschafts-Beziehungen zurückgeführt werden kann. Erklärtes Ziel dieser Arbeit war es folglich, die Modifikationsmöglichkeiten von Kupfer(I)-emittern deutlich zu vergrößern. Hierbei wurde besonderes Augenmerk auf die Verwendung von Carbenen als monodentaten π-Chromophorliganden gelegt.
Ausgehend von MeCAAC bzw. verschiedenen CAArCs konnte eine Bandbreite von Kupfer(I)- sowie Zink(II)-verbindungen synthetisiert sowie charakterisiert werden. Die durchgeführten Photolumineszenzstudien zeigen eindrucksvoll die Chromophoreigenschaften der verwendeten Carbene auf, werden doch Quantenausbeuten bis nahezu 1 sowie strahlende Ratenkonstanten von bis zu 9·105 s-1 erreicht. Es gelang somit also, Kupfer(I)-carbenverbindungen als vielversprechende Emitterklasse zu etablieren.
In einem zweiten Bereich wurden anschließend erste Versuche unternommen, die gewonnen Erkenntnisse auf das Feld der Zink(II)-carbenverbindungen zu übertragen. Dabei konnten wichtige Erkenntnisse hinsichtlich Struktur und Stabilität Zink(II)-MeCAAC-verbindungen erhalten werden.