To examine the influence of mixed substituents on the structural, electrochemical redox behavior of porphyrins, two new classes of beta-pyrrole mixed substituted free-base tetraphenylporphyrins H-2(TPP(Ph)(4)X-4) ( X) CH3, H, Br, Cl, CN) and H-2(TPP(CH3)(4)X-4) (X) H, Ph, Br, CN) and their metal (M = Ni(II), Cu(II), and Zn(II)) complexes have been synthesized effectively using the modified Suzuki cross-coupling reactions. Optical absorption spectra of these porphyrins showed significant red-shift with the variation of X in H-2(TPPR4X4), and they induce a 20-30 nm shift in the B band and a 25-100 nm shift in the longest wavelength band [Q x (0,0)] relative to the corresponding H2TPPR4 (R) CH3, Ph) derivatives. Crystal structure of a highly sterically crowded Cu(TPP(Ph)(4)(CH3)(4))center dot 2CHCl(3) complex shows a combination of ruffling and saddling of the porphyrin core while the Zn( TPP( Ph)(4)Br-4(CH3OH)), CH3OH structure exhibits predominantly saddling of the macrocycle. Further, the six-coordinated Ni( TPP(Ph)(4)(CN)(4)( Py)(2))center dot 2(Py) structure shows nearly planar geometry of the porphyrin ring with the expansion of the core. Electrochemical redox behavior of the MTPPR4X4 compounds exhibit dramatic cathodic shift in first ring oxidation potentials (300-500 mV) while the reduction potentials are marginally cathodic in contrast to their corresponding MTPPX4 ( X) Br, CN) derivatives. The redox potentials were analyzed using Hammett plots, and the highest occupied molecular orbital-lowest unoccupied molecular orbital ( HOMO-LUMO) gap decreases with an increase in the Hammett parameter of the substituents. Electronic absorption spectral bands of H2TPPR4X4 are unique that their energy lies intermediate to their corresponding data for the H-2(TPPX8) (X) CH3, Ph, Br, Cl) derivatives. The dramatic variation in redox potentials and large red-shift in the absorption bands in mixed substituted porphyrins have been explained on the basis of the nonplanarity of the macrocycle and substituent effects.

• 出版日期2006-5-15