Outer-sphere electron transfer from carbazoles to halomethanes. Reduction potentials of halomethanes measured by fluorescence quenching experiments

被引:28
作者
Bonesi, SM [1 ]
Erra-Balsells, R [1 ]
机构
[1] Univ Buenos Aires, Fac Ciencias Exactas & Nat, Dept Quim Organ, RA-1430 Buenos Aires, DF, Argentina
来源
JOURNAL OF THE CHEMICAL SOCIETY-PERKIN TRANSACTIONS 2 | 2000年 / 07期
关键词
D O I
10.1039/b000474j
中图分类号
O62 [有机化学];
学科分类号
070303 ; 081704 ;
摘要
Kinetic studies on the photoinduced electron transfer reduction of a variety of halomethanes in acetonitrile and ethanol at 298 K are reported in terms of the quenching rate constants (k(q)) with a series of reductants (carbazoles and anthracenes) whose one-electron oxidation potentials (E-ox) have been measured again in the present work vs. SCE and independently vs. ferrocene. The Rehm-Weller Gibbs energy relationship is applied to determine the fundamental parameters for the one-electron reduction, i.e., the one-electron reduction potentials (ERX/RX-.) of the halomethanes and the intrinsic barrier for the electron transfer reduction (Delta G double dagger(o)). The E-RX/RX(-). values obtained were related to the concerted electron transfer-bond breaking reduction potentials (E-RX/R.(-)(+X).) and the standard free enthalpies of dissociation of RX-.(Delta G(RX)(o,diss)(-).) were estimated in each solvent. Additionally, the one-electron reduction potential (E-RX/RX(-).) values estimated in acetonitrile were also related to different thermodynamic parameters such as electron affinity (E-A), LUMO-HOMO energy differences (Delta E) and the bond dissociation energy (D-RX). Optimized geometry, E-A and Delta E for halomethanes were calculated by an ab initio method at the B3LYP level using 3-21G, 6-31+G(d,p) and G-311+G(3df,2pd) basis sets. In all these cases good linear correlations were obtained. The Delta G double dagger(o) values obtained are compared with those calculated using the equation Delta G double dagger(o)=lambda/4 with lambda=lambda(i)+lambda(o) where the solvent reorganization energy (lambda(o)) and the inner-sphere reorganization energies (lambda(i)) associated with the structural change upon the electron-transfer process were calculated, the former by using the Marcus-Hush model and the latter by using semiempirical and ab initio molecular modeling and QSAR properties. Results obtained from the preparative irradiation of carbazoles in the presence of halomethanes, which are consistent with a photoinduced electron transfer mechanism are also discussed.
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页码:1583 / 1595
页数:13
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