Photoconductivity of Porphyrin Nanochannels Composed of Diprotonated Porphyrin Dications with Saddle Distortion and Electron Donors
Nakanishi, T.; Kojima, T.; Ohkubo, K.; Hasobe, T.; Nakayama, K.; Fukuzumi, S.
Chemistry of Materials 20(24): 7492-7500
2008
ISSN/ISBN: 0897-4756 DOI: 10.1021/cm802460t
Accession: 086600565
Full-Text Article emailed within 0-6 h
Payments are secure & encrypted
References
Honda, T.; Nakanishi, T.; Ohkubo, K.; Kojima, T.; Fukuzumi, S. 2010: Structure and photoinduced electron transfer dynamics of a series of hydrogen-bonded supramolecular complexes composed of electron donors and a saddle-distorted diprotonated porphyrin Journal of the American Chemical Society 132(29): 10155-10163Kojima, T.; Nakanishi, T.; Harada, R.; Ohkubo, K.; Yamauchi, S.; Fukuzumi, S. 2007: Selective inclusion of electron-donating molecules into porphyrin nanochannels derived from the self-assembly of saddle-distorted, protonated porphyrins and photoinduced electron transfer from guest molecules to porphyrin dications Chemistry 13(31): 8714-8725
Kojima, T.; Honda, T.; Ohkubo, K.; Shiro, M.; Kusukawa, T.; Fukuda, T.; Kobayashi, N.; Fukuzumi, S. 2008: A discrete supramolecular conglomerate composed of two saddle-distorted zinc(II)-phthalocyanine complexes and a doubly protonated porphyrin with saddle distortion undergoing efficient photoinduced electron transfer Angewandte Chemie 47(35): 6712-6716
Chen, W.; El-Khouly, M.E.; Fukuzumi, S. 2011: Saddle distortion of a sterically unhindered porphyrin ring in a copper porphyrin with electron-donating substituents Inorganic Chemistry 50(2): 671-678
Melomedov, J.; Ochsmann, J.R.; Meister, M.; Laquai, F.; Heinze, K. 2014: Aminoferrocene and Ferrocene Amino Acid as Electron Donors in Modular Porphyrin–Ferrocene and Porphyrin–Ferrocene–Porphyrin Conjugates European Journal of Inorganic Chemistry 18: 2902-2915
Marcelli, A.; Foggi, P.; Moroni, L.; Gellini, C.; Salvi, P.R.; Badovinac, I.J. 2007: Relaxation properties of porphyrin, diprotonated porphyrin, and isoelectronic tetraoxaporphyrin dication in the S2 state Journal of Physical Chemistry. a 111(12): 2276-2282
Marcelli, A.; Foggi, P.; Moroni, L.; Gellini, C.; Salvi, P.R. 2008: Excited-state absorption and ultrafast relaxation dynamics of porphyrin, diprotonated porphyrin, and tetraoxaporphyrin dication Journal of Physical Chemistry. a 112(9): 1864-1872
Jelovica, I.; Moroni, L.; Gellini, C.; Salvi, P.R.; Orlić, N. 2005: Structural and vibrational properties of tetraoxaporphyrin dication, the oxygen analogue of porphyrin, and of isoelectronic diprotonated porphyrin Journal of Physical Chemistry. a 109(44): 9935-9944
Yokoyama, A.; Kojima, T.; Ohkubo, K.; Shiro, M.; Fukuzumi, S. 2011: Formation of a hybrid compound composed of a saddle-distorted Tin(IV)-porphyrin and a Keggin-type heteropolyoxometalate to undergo intramolecular photoinduced electron transfer Journal of Physical Chemistry. a 115(6): 986-997
Suzuki, W.; Kotani, H.; Ishizuka, T.; Kawano, M.; Sakai, H.; Hasobe, T.; Ohkubo, K.; Fukuzumi, S.; Kojima, T. 2019: A Diprotonated Porphyrin as an Electron Mediator in Photoinduced Electron Transfer in Hydrogen-Bonded Supramolecular Assemblies The Journal of Physical Chemistry C 123(18): 11529-11538
Zaleski, J.M.; Chang, C.K.; Nocera, D.G. 1993: Influence of solvent dynamics of inverted region electron transfer of cofacial porphyrin-porphyrin and porphyrin-chlorin complexes The Journal of Physical Chemistry 97(50): 13206-13215
Zaleski, J.M.; Chang, C.K.; Nocera, D.G. 1993: Influence of solvent dynamics on inverted region electron transfer of cofacial porphyrin-porphyrin and porphyrin-chlorin complexes Journal of Physical Chemistry (1952) 97(50): 13206-13215
Doss, M. 1969: Separation isolation and determination of proto porphyrin copro porphyrin penta carboxy porphyrin hexa carboxy porphyrin hepta carboxy porphyrin and uro porphyrin inst thin layer chromatography inst spectrophotometry Z Physiol Chem 350(4): 499-502
Maiya, B.G.; Cyr, M.; Harriman, A.; Sessler, J.L. 1990: In vitro photodynamic activity of diprotonated sapphyrin: a 22-.pi.-electron pentapyrrolic porphyrin-like macrocycle The Journal of Physical Chemistry 94(9): 3597-3601
Maiya, B.G.; Cyr, M.; Harriman, A.; Sessler, J.L. 1990: In vitro photodynamic activity of diprotonated sapphyrin : a 22-π-electron pentapyrrolic porphyrin-like macrocycle Journal of Physical Chemistry (1952) 94(9): 3597-3601
Nakanishi, T.; Ohkubo, K.; Kojima, T.; Fukuzumi, S. 2009: Reorganization energies of diprotonated and saddle-distorted porphyrins in photoinduced electron-transfer reduction controlled by conformational distortion Journal of the American Chemical Society 131(2): 577-584
Harada, R.; Kojima, T. 2005: A porphyrin nanochannel: formation of cationic channels by a protonated saddle-distorted porphyrin and its inclusion behavior Chemical Communications 6: 716-718
Smith, K.M.; Langry, K.C. 1983: Electrophilic mercuration reactions of derivatives of deutero porphyrin ix new syntheses of copro porphyrin iii hardero porphyrin iso hardero porphyrin and s 411 porphyrin dehydro copro porphyrin Journal of Organic Chemistry 48(4): 500-506
Kenner, G.W.; Quirke, J.M.E.; Smith, K.M. 1976: Pyrroles and related compounds part 36 transformations of proto porphyrin ix into hardero porphyrin pempto porphyrin chlorocruoro porphyrin and their isomers Tetrahedron 32(22): 2753-2756
Muniappan, S.; Liptsman, S.; Goldberg, I. 2006: Clathrate solvates of tetrakis(4-methoxycarbonylphenyl)porphyrin and its zinc(II)-pyridine complex, in which the porphyrin host structures are stabilized by porphyrin-porphyrin stacking and C-H...O attractions Acta Crystallographica. Section C Crystal Structure Communications 62(Part 4): M140-M143