Effect of Solvent and Protonation/Deprotonation on Electrochemistry, Spectroelectrochemistry and Electron‐Transfer Mechanisms of N‐Confused Tetraarylporphyrins in Nonaqueous Media

Xue, Songlin; Ou, Zhongping; Ye, Lina; Lu, Guifen; Fang, Yuanyuan; Jiang, Xiaolei; Kadish, Karl M.

doi:10.1002/chem.201405570

Cited by 27 publications

(45 citation statements)

References 54 publications

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“…In contrast to these values, smaller HOMO-LUMO gaps have been reported for the non-planar copper porphyrins, (OETPP)Cu and (DPP)Cu [50], the copper tetrabenzotetraarylporphyrin [51], the N-confused porphyrins [52][53][54] and the non-planar free-base porphyrins [55], where the separation ranges from 1.5-1.8 V under similar solution conditions.…”

Section: Electrochemistrymentioning

confidence: 82%

Electrochemistry and spectroelectrochemistry of metallohexaphyrins containing bis-copper or bis-zinc central metal ions

Chen

Ren

et al. 2017

J. Porphyrins Phthalocyanines

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ABSTRACT:Two meso-substituted bis-metallohexaphyrins were synthesized and characterized as to their electrochemical and spectroelectrochemical properties in nonaqueous media. The examined compounds are represented as HexaPyM 2 , where HexaPy represents an expanded macrocycle containing six pyrroles and M = Cu(II) or Zn(II). Each hexaphyrin undergoes four reversible one-electron reductions and two irreversible oxidations in PhCN or CH 2 Cl 2 containing 0.1 M tetrabutylammonium perchlorate. The HexaPyCu 2 is much easier to reduce than the corresponding Cu porphyrin with the same meso-substituents and it is also easier to reduce than a structurally related Cu(II) tripyrrinone. 4-, respectively. The neutral HexaPyCu 2 and HexaPyZn 2 also exhibit two oxidations, both of which are irreversible at a scan rate of 0.10 V/s. The peak separation between the first one-electron addition and the first electron abstraction of HexaPyM 2 ranges from 1.46 to 1.72 V. These non-thermodynamic HOMO-LUMO gaps are similar to the range of HOMO-LUMO gaps for previously characterized sapphyrins which contain five pyrrole ring in the macrocycle. KEYWORDS

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Section: Electrochemistrymentioning

confidence: 82%

Electrochemistry and spectroelectrochemistry of metallohexaphyrins containing bis-copper or bis-zinc central metal ions

Chen

Ren

et al. 2017

J. Porphyrins Phthalocyanines

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“…20,[24][25] A variety of subsequent experiments support the solvent dependent tautomerization, and several groups have used this information to study the various properties of 1e vs. 1i, as well as the tautomeric forms of other NCTPP derivatives. [22][23][26][27][28] Recently, the construction of self-assembled supramolecular systems was investigated as a function of NCTPP tautomer, and a proposed mechanism of tautomeric structures in a combination of four protic and aprotic solvents using SEM and AFM analysis was described. 29 Computational work by Marchand and Jacquemin, 30 and separately by us, 21,31 using the polarization continuum model in Gaussian09 and density functional theory (DFT), confirmed energetic differences as a function of solvent polarity, but also showed a switch in tautomer preference did not occur under these conditions.…”

Section: Introductionmentioning

confidence: 99%

Solvent Effects on the UV–Vis Absorption Properties and Tautomerism of N-Confused Tetraphenylporphyrin

2015

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The two tautomeric forms of N-confused tetraphenylporphyrin (NCTPP) show distinctly different absorption spectra. The existence of each tautomer in solution has been shown to be strongly solvent-dependent. In the present work, we have studied the tautomerization using absorption spectroscopy in 15 different solvents. While changes in the two tautomers are not large in the Soret band region, the distinct spectral changes between the two tautomers in the Q-band region provide a convenient way to measure the concentration of each tautomer. The resulting data shows a strong correlation between the tautomer and the H-bond accepting ability of the solvent. The anomaly in this data is for the alcoholic solvents ethanol and methanol, for which we observe evidence for H-bonding, presumably between the exterior N2 nitrogen of the NCTPP and the O-H proton of the solvent.

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“…N‐confused porphyrins are structurally similar to “normal” porphyrins, but have an inverted pyrrole with a carbon inside the cavity and a nitrogen on the periphery of the π‐system (see structures in Figure ). These compounds have attracted much attention because of their unique spectral and electrochemical properties as compared to “normal” porphyrins …”

Section: Introductionmentioning

confidence: 99%

“…We recently described the electrochemistry and protonation reactions of N‐confused porphyrins with and without an inner NO 2 group, (Ar) 4 NcpH 2 and NO 2 (Ar) 4 NcpH 2 , and have now turned our attention to the same type of N‐confused free‐base porphyrins with an exterior N‐methylated pyrrole. The structures of these newly investigated compounds are shown in Figure a and represented as N‐CH 3 (Ar) 4 NcpH 2 , where Ncp is the dianion of the N‐confused porphyrin and Ar is a CH 3 OPh, CH 3 Ph, Ph or ClPh substituent on the four meso‐positions of the macrocycle.…”

Section: Introductionmentioning

confidence: 99%

Electrochemistry of Methylated N‐Confused Free‐Base Tetraarylporphyrins in Nonaqueous Media

Wang

Chen

et al. 2017

ChemElectroChem

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Four methylated N‐confused free‐base tetraarylporphyrins, which are represented as N‐CH3(Ar)4NcpH2 (Ar =CH3OPh, CH3Ph, Ph or ClPh), were synthesized and characterized in terms of their spectral and electrochemical properties in nonaqueous media. The first one‐electron oxidation of each porphyrin is reversible and located at E1/2=0.51–0.71 V, whereas the first one‐electron reduction is quasi‐reversible and located between −0.98 and −1.11 V vs. SCE. The electrochemically measured HOMO−LUMO gap ranged from 1.62 to 1.73 V, depending upon the solvent and meso‐substituents on the macrocycle, and this range of values is similar to the HOMO−LUMO gaps of both the non‐methylated N‐confused porphyrins, (Ar)4NcpH2 (1.60–1.68 V), and the nitrated N‐confused porphyrins, NO2(Ar)4NcpH2 (1.58–1.68 V). The effect of the N‐methyl group on UV/Vis spectra and reduction/oxidation potentials as well as the mechanisms of electron transfer are discussed, and comparisons made with data in the literature for both the non‐methylated N‐confused porphyrins and related N‐confused porphyrins having the same meso‐substituents and an inner nitro‐substituted carbon atom.

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Effect of Solvent and Protonation/Deprotonation on Electrochemistry, Spectroelectrochemistry and Electron‐Transfer Mechanisms of N‐Confused Tetraarylporphyrins in Nonaqueous Media

Cited by 27 publications

References 54 publications

Electrochemistry and spectroelectrochemistry of metallohexaphyrins containing bis-copper or bis-zinc central metal ions

Electrochemistry and spectroelectrochemistry of metallohexaphyrins containing bis-copper or bis-zinc central metal ions

Solvent Effects on the UV–Vis Absorption Properties and Tautomerism of N-Confused Tetraphenylporphyrin

Electrochemistry of Methylated N‐Confused Free‐Base Tetraarylporphyrins in Nonaqueous Media

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