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A number of real time PCR approaches have been published in the literature. In this thesis, the suitability of different real time PCR approaches using hydrolysis probes have been evaluated regarding PCR performance, cost effectiveness as well as handling. The effect of double-quenched probes as well as the impact of the increase of relative Flap endonuclease amount in quantitative real time PCR has been examined. In terms of genotyping a TaqMan™ assay, considered to be the gold-standard in this application, has been tested and compared to phosphorothioate modified probes, allele specific primers, SNAKE primers, an allele specific probe and primer assays as well as an assay using minor groove binder probes. Promising observations have been made in the case of double-quenched probes, phosphorothioate modified probes, SNAKE primers as well as minor groove binder probes.
This thesis investigated the generation of laser induced periodic surface structures (LIPSS) using femtosecond laser irradiation at a central wavelength of 775 nm.
The metals stainless steel and copper as well as a semiconducting thin film, ITO on glass substrate were investigated. The impact of the processing parameters was studied for single and multiple pulse irradiation to determine the ablation threshold of the materials
and the different types of LIPSS. These observations allowed the optimisation of area structuring with regards to processing speed and LIPSS quality.
The feasibility of the LIPSS generation in dynamic, real time polarisation control was then explored. By using a fast response, liquid-crystal polarisation rotation device, the direction of the linear polarisation of the laser beam could be dynamically controlled and synchronised to the scanning during laser processing. As a result, a range of complex micro- and nano-scale patterns with orthogonal direction of LIPSS were created. The samples were analysed using optical and electron microscopy. The orientation of the LIPSS was determined also from detection of light diffracted by the LIPSS.
Finally, two applications of large area LIPSS patterning were demonstrated, information encoding on metals and periodic structuring of a thin film conducting oxide for solar cells.
nicht vorhanden
A variety of methods have been used to describe natural systems and cellular functions. Most use continuous systems with differential equations. Based upon the neighbourhood relations in graphs and the complex interactions in cellular automata a mathematical model was designed and implemented as an application user interface. This discrete approach called graph automata was utilised to simulate diffusion processes and chemical kinetics. The progression of diffusion in cellular environments was described and resulted in a discrepancy of 20% in comparison to experimental results. Different chemical kinetics were simulated and found to be as accurate as their continuous counterparts. The proposed model appears to be a highly scalable and modular
approach to simulate natural systems.
The cultivation of mammalian cells in the third dimension has a great potential for a
wide application in regenerative medicine, pharmaceutical industry or cancer research.
An overview about actual 3-D cultivation techniques like hydrogels and porous scaffolds as well as their various materials and modifications is given in this thesis. Also different products and their implementation for a new application of 3-D cell
culture in a laboratory are described.