Design and synthesis of iridium(iii) azacrown complex: application as a highly sensitive metal cation phosphorescence sensor | Zendy

MeiLin Ho | Zendy; Fu-Ming Hwang | Zendy; Pei-Nung Chen | Zendy; Yahui Hu | Zendy; YiMing Cheng | Zendy; Kung-Shih Chen | Zendy; GeneHsiang Lee | Zendy; Yün Chi | Zendy; PiTai Chou | Zendy

Open Access

Design and synthesis of iridium(iii) azacrown complex: application as a highly sensitive metal cation phosphorescence sensor

Author(s) -

MeiLin Ho,

Fu-Ming Hwang,

Pei-Nung Chen,

Yahui Hu,

YiMing Cheng,

Kung-Shih Chen,

GeneHsiang Lee,

Yün Chi,

PiTai Chou

Publication year - 2005

Publication title -

organic and biomolecular chemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.923

H-Index - 146

eISSN - 1477-0539

pISSN - 1477-0520

DOI - 10.1039/b511943j

Subject(s) - phosphorescence , chemistry , iridium , metal , crown ether , octahedron , chelation , photochemistry , ether , crystallography , crystal structure , inorganic chemistry , ion , organic chemistry , fluorescence , catalysis , physics , quantum mechanics

A new metal cation probe bearing a central Ir(III) element and 1-aza-15-crown-5-ether substituted pyridyl pyrazolate as the chelate was synthesized. The octahedral molecular structure of was confirmed using single crystal X-ray diffraction analyses. Subsequent photophysical study showed yellow-green emission at approximately 560 nm in both fluid solution and solid state at room temperature. Remarkable differentiation in spectral properties upon metal cation (e.g. Ca2+) complexation makes complex a highly sensitive phosphorescence probe.

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