Long-Lived Charge Separation in a Dyad of Closely-Linked Subphthalocyanine-Zinc Porphyrin Bearing Multiple Triphenylamines

El‐Khouly, Mohamed E.; Ryu, Jung Bok; Kay, Kwang‐Yol; Ito, Osamu; Fukuzumi, Shunichi

doi:10.1021/jp904310f

Cited by 54 publications

(34 citation statements)

References 105 publications

(44 reference statements)

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“…[1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20] In this marvelous process, sunlight is harvested by the antenna complexes and the excitation energy is funneled to the reaction center (RC), where multistep electron-transfer reactions occur to generate a potential that can drive chemical reactions ( Figure 1). [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20] In this marvelous process, sunlight is harvested by the antenna complexes and the excitation energy is funneled to the reaction center (RC), where multistep electron-transfer reactions occur to generate a potential that can drive chemical reactions ( Figure 1).…”

Section: Introductionmentioning

confidence: 99%

Photosynthetic Antenna–Reaction Center Mimicry by Using Boron Dipyrromethene Sensitizers

2013

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Various molecular and supramolecular systems have been synthesized and characterized recently to mimic the functions of photosynthesis, in which solar energy conversion is achieved. Artificial photosynthesis consists of light-harvesting and charge-separation processes together with catalytic units of water oxidation and reduction. Among the organic molecules, derivatives of BF2-chelated dipyrromethene (BODIPY), "porphyrin's little sister", have been widely used in constructing these artificial photosynthetic models due to their unique properties. In these photosynthetic models, BODIPYs act as not only excellent antenna molecules, but also as electron-donor and -acceptor molecules in both the covalently linked molecular and supramolecular systems formed by axial coordination, hydrogen bonding, or crown ether complexation. The relationships between the structures and photochemical reactivities of these novel molecular and supramolecular systems are discussed in relation to the efficiency of charge separation and charge recombination. Femto- and nanosecond transient absorption and photoelectrochemical techniques have been employed in these studies to give clear evidence for the occurrence of energy- and electron-transfer reactions and to determine their rates and efficiencies.

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Section: Introductionmentioning

confidence: 99%

Photosynthetic Antenna–Reaction Center Mimicry by Using Boron Dipyrromethene Sensitizers

2013

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“…In the near‐UV and visible ranges, the absorption profile is due to the porphyrin core. These dendrimer spectra retain all the main features of the “parent” Zn‐tetra‐aryl‐porphyrin core (Zn‐5,10,15,20‐tetraphenyl‐porphyrin (ZnTPP)27 and Zn‐5,10,15,20‐tetrakis(2,4,6‐trimethylphenyl)‐porphyrin (ZnTMesP)22,28) (Tables 1 and 2). Nevertheless, minor changes could be seen in the spectra, which deserve to be discussed in detail.…”

Section: Resultsmentioning

confidence: 80%

Click Reaction Synthesis and Photophysical Studies of Dendritic Metalloporphyrins

et al. 2014

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Several dendritic zinc(II)‐porphyrins bearing carbazole units at the terminals have been prepared through click reaction of azide‐substituted Zn‐porphyrin precursors and carbazole‐based alkynes under [Cu(NCCH3)4][PF6] catalysis. This family of new dendritic metalloporphyrins shows dual luminescence from both the upper S2 and the lowest S1 singlet states. The observed trends in the spectroscopic data and the photophysical properties of the dendrimers have been rationalized in terms of the type of meso‐spacer between the macrocycle and dendritic shell. The key feature of the meso‐spacer is proposed to be the degree of hindrance towards aryl ring rotation relative to the mean porphyrin plane. Based on the observed differences in the S1→S0 fluorescence quantum yield on going from four‐ to five‐coordinate dendrimers, it was shown that dendrimer architectures with all four meso‐aryl spacers sterically hindered, are most appropriate to monitor processes related to axial ligation of the dendrimer core, since they provide larger luminescence response differences between the four‐coordinate and five‐coordinate forms. The blue S2→S0 fluorescence quantum yield has been measured and the observed trend has been rationalized in terms of the S2→S1 energy gap law. No significant differences were observed between the compounds either with different rotational degree of freedom of the meso‐spacers or with different ligation states of the dendrimer core.

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“…The synthesis of the arylamino analogues turned out to be more straightforward and higher‐yielding (Scheme ). Reaction of 4‐(diphenylamino)benzaldehyde ( 14 ),16 trimethylsilylpropynal, and pyrrole under the usual conditions gave porphyrin derivative 15 in 13 % yield. The conversion to 4 and 5 was accomplished by metallation followed by Sonogashira couplings, following the same procedure as described above, with good yields in all steps.…”

Section: Resultsmentioning

confidence: 99%

Tuning the Electronic Properties of Porphyrin Dyes: Effects of meso Substitution on Their Optical and Electrochemical Behaviour

2013

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Two series of unsymetrically functionalized, carboxyethynylphenyl‐containing porphyrins, bearing either 2,4,6‐triisopropylphenyl or triphenylamino substituents at three of the four meso positions, have been prepared by Sonogashira coupling from the corresponding ethynyl‐ or iodo‐functionalized porphyrin precursors. UV/Vis and electrochemical measurements have been performed to determine the electronic features of these new compounds and, hence, their potential as dyes for dye‐sensitized solar cells.

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Long-Lived Charge Separation in a Dyad of Closely-Linked Subphthalocyanine-Zinc Porphyrin Bearing Multiple Triphenylamines

Cited by 54 publications

References 105 publications

Photosynthetic Antenna–Reaction Center Mimicry by Using Boron Dipyrromethene Sensitizers

Photosynthetic Antenna–Reaction Center Mimicry by Using Boron Dipyrromethene Sensitizers

Click Reaction Synthesis and Photophysical Studies of Dendritic Metalloporphyrins

Tuning the Electronic Properties of Porphyrin Dyes: Effects of meso Substitution on Their Optical and Electrochemical Behaviour

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