Electronic energy harvesting multi BODIPY-zinc porphyrin dyads accommodating fullerene as photosynthetic composite of antenna-reaction center.
about
Conformationally constrained macrocyclic diporphyrin-fullerene artificial photosynthetic reaction center.Long-lived photoinduced charge separation for solar cell applications in supramolecular complexes of multi-metalloporphyrins and fullerenes.Bis(subphthalocyanine)-azaBODIPY triad for ultrafast photochemical processes.An allosteric photoredox catalyst inspired by photosynthetic machineryPhotosynthetic antenna-reaction center mimicry by using boron dipyrromethene sensitizers.Supramolecular photochemistry applied to artificial photosynthesis and molecular logic devices.Antenna effects in truxene-bridged BODIPY triarylzinc(II)porphyrin dyads: evidence for a dual Dexter-Förster mechanism.Multi-modular, tris(triphenylamine) zinc porphyrin-zinc phthalocyanine-fullerene conjugate as a broadband capturing, charge stabilizing, photosynthetic 'antenna-reaction center' mimic.Molecular dyads comprising metalloporphyrin and alkynylplatinum(II) polypyridine terminal groups for use as a sensitizer in dye-sensitized solar cells.Light-harvesting ytterbium(III)-porphyrinate-BODIPY conjugates: synthesis, excitation-energy transfer, and two-photon-induced near-infrared-emission studies.Phenothiazine-BODIPY-fullerene triads as photosynthetic reaction center models: substitution and solvent polarity effects on photoinduced charge separation and recombination.Controlling electron and energy transfer paths by selective excitation in a zinc porphyrin-BODIPY-C60 multi-modular triad.Synthesis and spectroscopic properties of a soluble semiconducting porphyrin polymer.Photochemical Bleaching of an Elaborate Artificial Light-Harvesting Antenna.Ultrafast energy and electron transfers in structurally well addressable BODIPY-porphyrin-fullerene polyads.Ultrafast Charge-Separation in Triphenylamine-BODIPY-Derived Triads Carrying Centrally Positioned, Highly Electron-Deficient, Dicyanoquinodimethane or Tetracyanobutadiene Electron-Acceptors.Strategic Construction of Directly Linked Porphyrin-BODIPY Hybrids.Modelling excitation energy transfer in covalently linked molecular dyads containing a BODIPY unit and a macrocycle.Azophenine as Central Core for Efficient Light Harvesting Devices.Cyclic Tetramers of Zinc Chlorophylls as a Coupled Light-Harvesting Antenna-Charge-Separation System.meso-2'-Linked porphyrin-BODIPY hybrids: synthesis and efficient excitation energy transfer.Sequential energy and charge transfer processes in mixed host-guest complexes of subphthalocyanine, porphyrin and phthalocyanine chromophores.Formation and photoinduced processes of a self-assembled subphthalocyanine-porphyrin-phthalocyanine supramolecular complex.Application of the boron center for the design of a covalently bonded closely spaced triad of porphyrin-fullerene mediated by dipyrromethane.
P2860
Q34629852-337A6557-142B-4515-AB02-38B336D49AF9Q35021320-5508D9B1-F08A-444E-AABA-05328F89FF75Q35215664-F9DE033D-08B5-4B8C-A71D-5FC1C2A2345BQ35311727-1CD938F7-FA6B-4636-BA99-84662C6A79FAQ38163506-F759BF32-3E95-4A32-963B-38239AEA40AEQ38619961-81CDFB5D-E461-4BEF-AFE3-60814A559760Q39222170-F6AE3D8F-125A-42C7-B772-5CE5D0C98926Q41165411-6C8D2CB1-E2F3-43EE-92F7-C277DA72D3ECQ42642990-6A056BD1-C5FC-441F-B33B-25A0E620FF7EQ44176810-8C8B4A79-FAD1-4C0A-8E5E-F5563A047C8FQ46031788-846182A9-183A-4821-ACAE-2E9FB24EAD46Q46262825-E9163F31-4F02-4697-B821-8FF5659525A5Q46866570-A408573A-6A99-4DF2-88B7-6253B03FC73CQ47831180-823613A9-1DED-4BAF-82B9-FAD4D9FF7E87Q48049979-E4182545-4C73-4BF8-BEC2-27836F9490A1Q48061958-A743ACF6-04FB-47F8-87B3-0633332702CCQ48296203-9CA2ED4A-62DE-43B0-A28C-DCBE6C866D34Q49332265-648D0EAE-ECA8-4E95-B992-D03CFEBE4E58Q50072627-F56B6B62-C348-4E29-AA71-B261C0618EA8Q51625820-5F808F58-BE86-4F51-BCE8-0B61D28D166EQ51822928-7276B707-B1BD-4512-954B-783F059132E1Q52886655-781EE136-C331-4FBC-A257-826F51A12595Q52888925-62F4F913-B31F-45C1-B835-EA0F8A544B54Q53332446-FD380123-1DEB-44B4-B26F-515182A8C9EC
P2860
Electronic energy harvesting multi BODIPY-zinc porphyrin dyads accommodating fullerene as photosynthetic composite of antenna-reaction center.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
Electronic energy harvesting m ...... te of antenna-reaction center.
@en
Electronic energy harvesting m ...... te of antenna-reaction center.
@nl
type
label
Electronic energy harvesting m ...... te of antenna-reaction center.
@en
Electronic energy harvesting m ...... te of antenna-reaction center.
@nl
prefLabel
Electronic energy harvesting m ...... te of antenna-reaction center.
@en
Electronic energy harvesting m ...... te of antenna-reaction center.
@nl
P2093
P356
P1476
Electronic energy harvesting m ...... te of antenna-reaction center.
@en
P2093
E Maligaspe
H Lemmetyinen
M E Zandler
N V Tkachenko
T Kumpulainen
P304
P356
10.1039/C002757J
P407
P577
2010-06-12T00:00:00Z