Browsing by Subject "Chemosensors"
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Item Open Access A chromogenic dioxetane chemosensor for hydrogen sulfide and pH dependent off-on chemiluminescence property(Elsevier, 2014) Turan, I. S.; Sozmen, F.In this paper, a rapid and highly selective chromogenic naked eye detection of hydrogen sulfide was achieved by a 1,2-dioxetane based chemiluminescent probe in aqueous media at pH 7.4. Chemiluminescence property of the probe can be modulated depending on the pH value of medium.Item Open Access Ion sensing, light harvesting, energy conversion & self-assembly in rationally designed molecular constructs(2013) Büyükçakır, OnurIn this thesis, we have constructed rationally designed functional supramolecular systems. In the first chapter, we reported two Bodipy based chemodosimeters to detect fluoride both in solution and in polymethylmethaacraylate (PMMA) matrix. In the second part, we synthesized tetrastyrl-Bodipy derivatives by condensing methyl substituents of 1,3,5,7-tetramethyl-Bodipy dyes with different aromatic aldehydes. The resulting dyes have sharp and intense emission maxima in the near-IR region and they are robust candidates for functional supramolecular systems because of their outstanding properties. In next chapter, we investigated light harvesting properties of these new generation near-IR emissive dyes. In designed light harvesters, a near-IR emissive tetrastyrl-Bodipy dye which was decorated with short wavelength Bodipy fluorophores function as antenna units. In the forth chapter, we reported a Cu(I)-diimine complex as a photosensitizer for dye-sensitized solar cells (DSSC). It was demonstrated that Cu(I) diimine complex with capability of ultrafast electron injection to TiO2 nanoparticles can be a very good candidate for replacing ruthenium based polypyridyl complexes with a much lower cost. This research potentially can generate significant impact for those working on solar energy conversion and DSSC. In the final chapter, we propose to utilize oscillations in pH to move the two components of pseudorotoxane in relation to each other and this is the first example of a pseudorotaxane in which the mobile component is shuttling autonomously.Item Open Access Self immolative dioxetane based chemiluminescent probe for H2O2 detection(Elsevier, 2017) Seven, O.; Sozmen, F.; Simsek Turan, I.Chemiluminescent detection of H2O2 has been achieved by using self immolative dioxetane based probe which enables the signal amplification via disassembly of two chemiluminogenic modules at the same time in response to single analyte. Upon treatment of the probe with H2O2, boronate ester was deprotected subsequently to trigger the decomposition of 1,2-dioxetane ring via CIEEL mechanism which results in light emission as a selective sign of H2O2. � 2016 Elsevier B.V.Item Open Access Sensing and sensitizer activation by biological thiols and 1,2-dioxetanes based chemiluminescence probes(2014) Turan, İlke ŞimşekBiologically important biothiols like Cystein (Cys), Homocystein (Hcy) and Glutathione (GSH) are vital for the maintenance of cellular redox status and alterations in their levels is linked to a number of severe diseases such as AIDS, cancer and Alzheimer‟s therefore the design and synthesis of nitroolefin functionalized bodipy dyes responding to biological thiols by both absorbance and emission changes have been accomplished. Through the incorporation of hydrophilic groups, bright signaling of biothiols in the longer wavelength region of the visible spectrum is deemed to operate in biological environment. With this knowledge, bioconjugation of the nitroolefin functionalized dyes with thiol groups like those belonging to cysteine residues on proteins has been proved via large spectral changes and targeted to visualize dynamics of proteins, cell-cell interactions, mechanisms of life cycles of proteins. Hence, the result suggests that nitroolefin functionalization of BODIPY dyes is a promising way to sense biological thiols and hence labeling proteins having thiol groups. Since GSH plays vital roles in the oxidative stress exists within the cells and thus, high concentration of it is the indication of cancer development, design and synthesis of cancer related parameter based activation of bodipy based photosensitizers have been achieved to enhance spatiotemporal selectivity in photonic sensitization of dissolved molecular oxygen and thus, improves the potential and practice of photodynamic therapy and their effectiveness are validated by cell culture studies. Chemiluminescence in principle can provide a rapid, qualitative and/or quantitative test for analytes of interest; because of that synthesis of novel probes for the sensing of biologically important (fluoride) anion have been devised to combine the power of chemiluminescence and self immolative amplifiers which offers a chemical avenue for enhancing the signal produced in response to a given analyte. Through the development of chemiluminogenic perspective for sensing of palladium ions, rapid and selective response of probe to palladium ions with regardless of their charge in aqueous environment have been accomplished. Considering the convenience of the methods and substantial results, we are confident that other probes combining the power of chemiluminescence will emerge.