Photophysical and electrochemical properties of meso, meso-linked oligoporphyrin rods with appended fullerene terminals.
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[1] Dongho Kim,et al. Directly linked porphyrin arrays with tunable excitonic interactions. , 2004, Accounts of chemical research.
[2] F. Diederich,et al. Chromophoric interactions in [60]fullerene–porphyrin dyads investigated by solid-state UV–Vis and IR spectroscopies , 2004 .
[3] H. Imahori,et al. Porphyrin-fullerene linked systems as artificial photosynthetic mimics. , 2004, Organic & biomolecular chemistry.
[4] H. Imahori,et al. Giant multiporphyrin arrays as artificial light-harvesting antennas. , 2004, The journal of physical chemistry. B.
[5] J. Gisselbrecht,et al. Ground and excited state electronic interactions in a bis(phenanthroline) copper(I) complex sandwiched between two fullerene subunits. , 2003, Inorganic chemistry.
[6] S. Fukuzumi,et al. Quaternary self-organization of porphyrin and fullerene units by clusterization with gold nanoparticles on SnO2 electrodes for organic solar cells. , 2003, Journal of the American Chemical Society.
[7] F. Diederich,et al. Exceptional redox and photophysical properties of a triply fused diporphyrin-C60 conjugate: novel scaffolds for multicharge storage in molecular scale electronics. , 2003, Angewandte Chemie.
[8] M. Prato,et al. Modulating charge-transfer interactions in topologically different porphyrin-C60 dyads. , 2003, Chemistry.
[9] S. Fukuzumi,et al. Light energy conversion using mixed molecular nanoclusters. Porphyrin and C60 cluster films for efficient photocurrent generation , 2003 .
[10] Helge Lemmetyinen,et al. Ultrafast Photodynamics of Exciplex Formation and Photoinduced Electron Transfer in Porphyrin−Fullerene Dyads Linked at Close Proximity , 2003 .
[11] Dongho Kim,et al. Photophysical Properties of Directly Linked Linear Porphyrin Arrays , 2003 .
[12] M. Zandler,et al. Photoinduced Electron Transfer in “Two-Point” Bound Supramolecular Triads Composed of N,N-Dimethylaminophenyl-Fullerene-Pyridine Coordinated to Zinc Porphyrin , 2003 .
[13] N. Armaroli. From metal complexes to fullerene arrays: exploring the exciting world of supramolecular photochemistry fifteen years after its birth , 2003, Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology.
[14] D. Blaas,et al. Virus-ligand interactions: identification and characterization of ligand binding by NMR spectroscopy. , 2003, Journal of the American Chemical Society.
[15] Dongho Kim,et al. Photophysical properties of porphyrin tapes. , 2002, Journal of the American Chemical Society.
[16] F. Diederich,et al. Strong intramolecular chromophore interactions in novel bis([60]fullerene)-oligoporphyrin nanoarrays. , 2002, Chemical communications.
[17] Dongho Kim,et al. Photochemistry of covalently-linked multi-porphyrinic systems , 2002, Journal of Photochemistry and Photobiology C: Photochemistry Reviews.
[18] Dongho Kim,et al. Fluorescence from the Highly Excited States and Vibrational Energy Relaxation in Directly Linked Porphyrin Arrays , 2002 .
[19] F. Tham,et al. Supramolecular fullerene-porphyrin chemistry. Fullerene complexation by metalated "jaws porphyrin" hosts. , 2002, Journal of the American Chemical Society.
[20] F. Tham,et al. Extending supramolecular fullerene-porphyrin chemistry to pillared metal-organic frameworks , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[21] Francis D'Souza,et al. Spectroscopic, Electrochemical, and Photochemical Studies of Self-Assembled via Axial Coordination Zinc Porphyrin−Fulleropyrrolidine Dyads† , 2002 .
[22] Dirk M Guldi,et al. Fullerene-porphyrin architectures; photosynthetic antenna and reaction center models. , 2002, Chemical Society reviews.
[23] U. Wille. Self-terminating, oxidative radical cyclizations: a novel reaction of acyloxyl radicals. , 2002, Journal of the American Chemical Society.
[24] N. Armaroli. Photoinduced Energy Transfer Processes in Functionalized Fullerenes , 2002 .
[25] N V Tkachenko,et al. Charge-transfer emission of compact porphyrin-fullerene dyad analyzed by Marcus theory of electron-transfer. , 2001, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.
[26] E. I. Yudanova,et al. New molecular complexes of fullerenes C60 and C70 with tetraphenylporphyrins [M(tpp)], in which M=H2, Mn, Co, Cu, Zn, and FeCl. , 2001, Chemistry.
[27] M. Paddon-Row,et al. U-Shaped Donor [Bridge] Acceptor Systems with Remarkable Charge Transfer Fluorescent Properties: An Experimental and Computational Investigation , 2001 .
[28] S. Fukuzumi,et al. Modulating charge separation and charge recombination dynamics in porphyrin-fullerene linked dyads and triads: Marcus-normal versus inverted region. , 2001, Journal of the American Chemical Society.
[29] H. Cho,et al. Photophysical properties of long rodlike meso-meso-linked zinc(II) porphyrins investigated by time-resolved laser spectroscopic methods. , 2001, Journal of the American Chemical Society.
[30] A. Osuka,et al. Completely Fused Diporphyrins and Triporphyrin , 2000 .
[31] Nicola Armaroli,et al. Charge-transfer interactions in face-to-face porphyrin-fullerene systems: solvent-dependent luminescence in the infrared spectral region , 2000, Chemistry.
[32] Dongho Kim,et al. Extrem lange, diskrete Ketten ausmeso-meso-verknüpften Porphyrinen , 2000 .
[33] Takuzo Aida,et al. A Cyclic Dimer of Metalloporphyrin Forms a Highly Stable Inclusion Complex with C60 , 1999 .
[34] H. Anderson. Building molecular wires from the colours of life: conjugated porphyrin oligomers , 1999 .
[35] F. Diederich,et al. Synthesis, and Optical and Electrochemical Properties of Cyclophane-Type Molecular Dyads Containing a Porphyrin in Close, Tangential Orientation Relative to the Surface oftrans-1 Functionalized C60. Preliminary Communication , 1998 .
[36] F. Diederich,et al. A Copper(I)‐Complexed Rotaxane with Two Fullerene Stoppers: Synthesis, Electrochemistry, and Photoinduced Processes , 1998 .
[37] Jean-Marc Janot,et al. Photophysical properties of three methanofullerene derivatives. , 1998 .
[38] V. Balzani,et al. Photoinduced Processes in Dyads Made of a Porphyrin Unit and a Ruthenium Complex , 1997 .
[39] C. Reed,et al. Fullerides of Pyrrolidine-Functionalized C60 , 1997 .
[40] A. Osuka,et al. meso, meso‐Linked Porphyrin Arrays , 1997 .
[41] A. Osuka,et al. meso‐meso‐verknüpfte Porphyrine , 1997 .
[42] I. Yamazaki,et al. A Sequential Electron‐Transfer Relay in Diporphyrin–Porphyrin–Pyromellitimide Triads Analogous to That in the Photosynthetic Reaction Center , 1996 .
[43] A. Osuka,et al. Ein sequentieller Elektronentransfer analog dem im photosynthetischen Reaktionszentrum in Diporphyrin-Porphyrin-Pyromellitimid-Triaden† , 1996 .
[44] M. Meyerhoff,et al. High-performance liquid chromatography of C60, C70, and higher fullerenes on tetraphenylporphyrin-silica stationary phases using strong mobile phase solvents , 1995 .
[45] T. Moore,et al. Ultrafast Photoinduced Electron Transfer in Rigid Porphyrin—Quinone Dyads , 1995 .
[46] L. Flamigni. A nanosecond laser-flash-photolysis study of intramicellar reactions in the erythrosin B/CTAB aqueous system , 1992 .
[47] M. Paddon-Row,et al. Kinetic and Spectroscopic Investigation of The Influence of Conformation and Orbital-Symmetry on Long-Range Intramolecular Donor-Acceptor Interaction , 1992 .
[48] N. Turro,et al. Photosensitization by reversible electron transfer: theories, experimental evidence, and examples , 1986 .
[49] Edward M. Kober,et al. Application of the energy gap law to excited-state decay of osmium(II)-polypyridine complexes: calculation of relative nonradiative decay rates from emission spectral profiles , 1986 .
[50] Katsumi Nakamaru. Synthesis, Luminescence Quantum Yields, and Lifetimes of Trischelated Ruthenium(II) Mixed-ligand Complexes Including 3,3′-Dimethyl-2,2′-bipyridyl , 1982 .
[51] J. Demas,et al. Measurement of photoluminescence quantum yields. Review , 1971 .
[52] Joshua Jortner,et al. The energy gap law for radiationless transitions in large molecules , 1970 .