An inorganic application of transient direct current photoconductivity: Corroboration of a charge-transfer assignment for the luminescing states of Pt(dpphen)(ecda)

Transient direct current photoconductivity (TDCP) is an experimental technique capable of providing information about the sign and magnitude of differences in dipole moment, {mu}, for the ground state versus an excited state of an uncharged molecular chromophore in solution. Briefly, the technique u...

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Veröffentlicht in:	Inorganic chemistry 2000-04, Vol.39 (8)
Hauptverfasser:	Vanhelmont, F.W.M., Johnson, R.C., Hupp, J.T.
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Sprache:	eng
Schlagworte:	INORGANIC COMPOUNDS INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY ORGANIC SULFUR COMPOUNDS PHOTOCONDUCTIVITY PLATINUM COMPLEXES POLYCYCLIC AROMATIC HYDROCARBONS
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description	Transient direct current photoconductivity (TDCP) is an experimental technique capable of providing information about the sign and magnitude of differences in dipole moment, {mu}, for the ground state versus an excited state of an uncharged molecular chromophore in solution. Briefly, the technique utilizes a static, external electric field to achieve partial orientation of dipolar molecules. If photoexcitation leads to a change in dipole moment, the molecules will become either more completely (increase in {mu}) or less completely (decrease in {mu}) oriented by the field. In either case, the change, together with the accompanying rotational motion, is equivalent to a transient flow of positive charge toward a negative electrode and vice versa. The charge flow will persist until the rotational reorientation is finished, and then it will reverse when the molecule returns to its ground electronic state. The technique has yet to be applied to inorganic systems. An illustrative application to a representative diimine, dithiolate complex of Pt(II) is the focus of this Note.
doi_str_mv	10.1021/ic9911670
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title	An inorganic application of transient direct current photoconductivity: Corroboration of a charge-transfer assignment for the luminescing states of Pt(dpphen)(ecda)
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