Wooyoung Suh scite author profile

Ferrocenyl chalcones (Fc-C(O)CH=CH-Ar: Fc-Ar) with mono-and di-1-naphthalenyl moieties (Fc-1Naph and Fc-d1Naph) were prepared and spectroscopically characterized. The enone bridge was in the s-cis conformation and the π-electrons on the C=C bond were further delocalized on the bridge. The naphthalenyl moiety deviates greatly from the enone-Cp plane by 26.9(1) o . Cyclic voltammetry measurements for Fc-1Naph exhibit one reversible cycle for the redox of the ferrocenyl moiety at a lower potential, and one irreversible oxidation peak at the higher potential region. For Fc-d1Naph, the cyclic voltammogram is more featureless. Fluorescence properties for both compounds are active in polar solvents with λ em = 500 nm (EtOH) and λ em = 512 nm (MeOH) for Fc-1Naph and λ em = 496 nm (EtOH) and λ em = 508 nm (MeOH) for Fc-d1Naph. The intensity of Fc-d1Naph is more than twice than that of Fc-1Naph. The fluorescence properties for both compounds are inactive in the less polar solvents such as CH 3 CN, CH 2 Cl 2 and CHCl 3 .

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Wooyoung Suh

Hg(II) sensing properties of (diphosphine)Pt(dmit) complexes (dmit: C3S52−: 1,3-dithiole-2-thione-4,5-dithiolate)

Anion-dependent Hg2+-sensing of colorimetric (dppe)Pt(dmit) chemosensor (dppe: 1,2-bis(diphenylphosphino)ethane; dmit: 1,3-dithiole-2-thione-4,5-dithiolate)

Oxidative access to flexible {Pt2(μ-SAr)2} square motifs from platinum thiolato complexes with chelating diphosphine

Electrochemical and Fluorescent Properties of Ferrocenyl Chalcones Containing 1-Naphthalenyl Group: X-ray Crystal Structure of Fc-C(O)CH=CH-(1-Naph)

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