Metin Dagdevren scite author profile

A multisensor which is based on a novel multifunctional triad molecule, ferrocenyl naphthoquinone fused crown ether (Fc-cnq) bearing ferrocene, quinone, and crown ether functional groups together, was synthesized and characterized in this study. Sensing performance of a trace amount of water and the selective cation binding capabilities of this multisensor were carried out by the electrochemical, spectroelectrochemical, and spectrophotometric titration techniques in acetonitrile (CH3CN). It was shown that the potential separation (E((Fc))1/2 - E((2))1/2) between the second reduction of naphthoquinone and the oxidation processes of ferrocene in the triad molecule Fc-cnq was proportional to the amount of water due to the hydrogen-bonding interactions between water and the doubly reduced species (Fc-cnq(2-)). This property enabled Fc-cnq to detect the trace amount of water in CH3CN. The half-wave potential (E((Fc))1/2) of the ferrocene in Fc-cnq was used as an internal reference potential, and it defined the accuracy of the detection. In addition, by using the UV-vis spectrophotometric titration technique in CH3CN, it was also shown that the Fc-cnq multisensor could bind Ba(2+) and Ca(2+) cations selectively. We proposed that the intramolecular charge-transfer (CT) transition which occurred between the donor ferrocene and the acceptor naphthoquinone was the principle mechanism for the selective binding property of this multisensor. Quantum chemical calculations were also performed to investigate optical and electronic properties of the Fc-cnq molecule.

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The synthesis, characterization, and electrochemistry of molecular cobaloxime/organocobaloxime: catalysts for cycloaddition of carbon dioxide and epoxides

Kılıç

Ulusoy

Durgun

et al. 2014

Journal of Coordination Chemistry

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ChemInform Abstract: Ketone Synthesized Cobaloxime/Organocobaloxime Catalysts for Cyclic Carbonate Synthesis from CO₂ and Epoxides: Characterization and Electrochemistry.

et al. 2015

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Ketone Synthesized Cobaloxime/Organocobaloxime Catalysts for Cyclic Carbonate Synthesis from CO 2 and Epoxides: Characterization and Electrochemistry. -A new dioxime ligand is prepared and used for the synthesis of a series of monoand trinuclear cobaloxime/organocobaloxime complexes (10 examples; detailed physical and physico-chemical data). They are investigated in the direct approach to cyclic carbonates from epoxides (I) or cyclohexene oxide and CO 2. Extended research leads to the conditions shown in the scheme as the optimal ones. However, only epichlorohydrin (Ia) produces an efficient result. -(KILIC*, A.; KILIC, M. V.; ULUSOY, M.; DURGUN, M.; AYTAR, E.; DAGDEVREN, M.; YILMAZ, I.; J. Organomet. Chem. 767 (2014) 150-159, http://dx.

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Metin Dagdevren

Ketone synthesized cobaloxime/organocobaloxime catalysts for cyclic carbonate synthesis from CO2 and epoxides: Characterization and electrochemistry

Synthesis, characterization, electrochemical properties and conversions of carbon dioxide to cyclic carbonates mononuclear and multinuclear oxime complexes using as catalyst

A Novel Ferrocenyl Naphthoquinone Fused Crown Ether as a Multisensor for Water Determination in Acetonitrile and Selective Cation Binding

The synthesis, characterization, and electrochemistry of molecular cobaloxime/organocobaloxime: catalysts for cycloaddition of carbon dioxide and epoxides

ChemInform Abstract: Ketone Synthesized Cobaloxime/Organocobaloxime Catalysts for Cyclic Carbonate Synthesis from CO₂ and Epoxides: Characterization and Electrochemistry.

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Metin Dagdevren

Ketone synthesized cobaloxime/organocobaloxime catalysts for cyclic carbonate synthesis from CO2 and epoxides: Characterization and electrochemistry

Synthesis, characterization, electrochemical properties and conversions of carbon dioxide to cyclic carbonates mononuclear and multinuclear oxime complexes using as catalyst

A Novel Ferrocenyl Naphthoquinone Fused Crown Ether as a Multisensor for Water Determination in Acetonitrile and Selective Cation Binding

The synthesis, characterization, and electrochemistry of molecular cobaloxime/organocobaloxime: catalysts for cycloaddition of carbon dioxide and epoxides

ChemInform Abstract: Ketone Synthesized Cobaloxime/Organocobaloxime Catalysts for Cyclic Carbonate Synthesis from CO2 and Epoxides: Characterization and Electrochemistry.

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Product

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ChemInform Abstract: Ketone Synthesized Cobaloxime/Organocobaloxime Catalysts for Cyclic Carbonate Synthesis from CO₂ and Epoxides: Characterization and Electrochemistry.