Browsing by Subject "Solar cells--Materials."
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Item Open Access Chiral Bodipy dyes & photosensitizers for photodynamic therapy and dye-sensitized solar cells(2013) Çakmak, YusufBodipy is a molecule with many superior properties. After its discovery in 1968, most of the features were not recognized until mid 1990s. Thereafter, many research papers and patents have been produced and the number of publications and citations is still on the rise today. An important fraction of the research done with this fluorophore is in chemosensing field to probe various analytes including anions, cations and even biomolecules. However, in this research we have focused on different areas of subjects and tried to find novel applications for these dyes. First, we designed orthogonal bodipy dimers for efficient triplet photosensitization without heavy atoms in contrast to most other sensitizers and efficient singlet oxygen generation was achieved (Φ∆=0.51). In the second project, calix[4]arene molecules were designed and synthesized as carriers for photodynamic therapy, potentially behaving as a molecular basket carrying the agents to the tumor tissues. Later, we focused on obtaining axial chiral molecules by using solely bodipy dyes, and we were able to obtain enantiopure fragments were separated by using chiral HPLC. These rare molecules are desirable for modern biological labeling and advanced optoelectronic devices. Finally, we designed bodipy dyes for dye sensitized solar cells by adapting relevant functional groups, and following synthesis work, we constructed cells to assess the design parameters via measuring the electrical output results.Item Open Access Light harvesting and efficient energy transfer in boron dipyrrin dyads and derivatization for potential utility in dye-sensitized solar cells(2008) Barın, GökhanIn bichromophoric supramolecular systems light is harvested by antenna components and excitation energy is channeled into an acceptor component. We have designed and synthesized novel energy transfer cassettes which are based on boradiazaindacene (BODIPY) units. Facile synthesis of long wavelength absorbing distyryl BODIPY dyes has been applied successfully in this study. In the first part of the thesis, efficient energy transfer from energy donor BODIPYs to long wavelength absorbing distyryl BODIPY core was demonstrated. To observe the antenna effect quantitatively, we have designed the cassettes with an increasing number of energy donor components. Based on these observations, in the second part of the thesis, we have introduced a light-harvesting photosensitizer for dye-sensitized solar cell (DSSC) purposes. The target molecule absorbs in visible and near-IR region and energy transfer is demonstrated successfully. Our design appears to be highly promising for DSSC.Item Open Access Synthesis and characterization of novel sensitizers for dye sensitized solar cells(2010) Kölemen, Safacan