Optical Properties of [Ru(phen)(2)dppz](2+) as a Function of Nonaqueous Environment

The complex [Ru(phen)(2)dppz](2+) is not photoluminescent in water but does emit in nonaqueous solvents (alcohols, acetonitrile) and in the presence of hydrated polymers such as DNA. Here we examine the steady-state and time-resolved photoluminescence spectra of [Ru(phen)(2)dppz](2+) in a series of...

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Veröffentlicht in:	Inorganic Chemistry 1997-03, Vol.36 (6), p.962-965
Hauptverfasser:	Nair, Rajesh B., Cullum, Brian M., Murphy, Catherine J.
Format:	Artikel
Sprache:	eng
Schlagworte:	ACETONITRILE MATERIALS SCIENCE NONAQUEOUS SOLVENTS OPTICAL PROPERTIES PHOTOLUMINESCENCE RUTHENIUM COMPLEXES SPECTRA
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container_title	Inorganic Chemistry
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creator	Nair, Rajesh B. Cullum, Brian M. Murphy, Catherine J.
description	The complex [Ru(phen)(2)dppz](2+) is not photoluminescent in water but does emit in nonaqueous solvents (alcohols, acetonitrile) and in the presence of hydrated polymers such as DNA. Here we examine the steady-state and time-resolved photoluminescence spectra of [Ru(phen)(2)dppz](2+) in a series of nonaqueous solvents. We find that solvent polarity, as defined by the E(T) scale, is the single most important parameter in predicting luminescence lifetime and intensity in nonaqueous systems. These results are compared to the data for DNA, and the sequence-dependent microenvironment of the complex bound to DNA also follows the trends observed herein. The addition of high concentrations of water to solutions of [Ru(phen)(2)dppz](2+) dissolved in nonaqueous solvents leads to decreases in emission intensity that follow the Perrin sphere of quenching model. The nonradiative rate constants for luminescence decay increase as the solvent polarity increases, while the radiative rate constants are relatively unaffected by the local environment.
doi_str_mv	10.1021/ic960862u
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Here we examine the steady-state and time-resolved photoluminescence spectra of [Ru(phen)(2)dppz](2+) in a series of nonaqueous solvents. We find that solvent polarity, as defined by the E(T) scale, is the single most important parameter in predicting luminescence lifetime and intensity in nonaqueous systems. These results are compared to the data for DNA, and the sequence-dependent microenvironment of the complex bound to DNA also follows the trends observed herein. The addition of high concentrations of water to solutions of [Ru(phen)(2)dppz](2+) dissolved in nonaqueous solvents leads to decreases in emission intensity that follow the Perrin sphere of quenching model. 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title	Optical Properties of [Ru(phen)(2)dppz](2+) as a Function of Nonaqueous Environment
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