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Journal of Physical Chemistry B, Vol.114, No.26, 8585-8592, 2010
Experimental and Theoretical Study of the p- and n-Doped States of Alkylsulfanyl Octithiophenes
The charge-transfer and spectral properties of two octithiophenes, namely 4',4',3(v)',3(v)'-tetra(octylsullanyl)and 4,3",4',4v"-tetrabromo-4',4"',3'(v),3(v)"-tetra[(R)2-methylbutylsulfany1 1-2,2':5',2":5",2'":5"',2":5',2(v):5'(v),2":5",2(v)"-octithiophene, OT1 and OT2, respectively, are characterized by cyclic voltammetry and spectroelectrochemistry under ultradry conditions. The analysis of the voltammetric results shows the formation of up to the dication for both OT1 and OT2 and up to the tetraanion (OT1) and trianion (OT2) anions. The optical properties of the 0'1'1 (2+, 1+, neutral, 1, 2) species were probed by in situ UV vis-NIR spectroelectrochemistry. The calculated standard potentials at the B3LYP/cc-pVTZ level of the theory allowed the rationalization of the experimental electrochemical results. The UV vis-NIR spectra were successfully compared with the theoretical electronic transitions and oscillator strength data obtained by time-dependent B3LYP/6-31G* calculations. Theoretical redox potentials and optical transitions properties are calculated including "the solvent effect" within the CPCM model. The consistency obtained between experimental and theoretical results indicates the existence of the hypothesized high-spin/ high-charge p- and n-doped electronic states for the OT1 and OT2 octithiophenes here studied.