about
Supramolecular structures and photoelectronic properties of the inclusion complex of a cyclic free-base porphyrin dimer and C60.Drastic difference in lifetimes of the charge-separated state of the formanilide-anthraquinone dyad versus the ferrocene-formanilide-anthraquinone triad and their photoelectrochemical properties of the composite films with fullerene clusters.A carbon nanohorn-porphyrin supramolecular assembly for photoinduced electron-transfer processes.Coronenetetraimide-centered cruciform pentamers containing multiporphyrin units: synthesis and sequential photoinduced energy- and electron-transfer dynamics.Supramolecular nanoarchitectures for light energy conversion.Porphyrin-Based Supramolecular Nanoarchitectures for Solar Energy Conversion.Diameter dependent electron transfer in supramolecular nanohybrids of (6,5)- or (7,6)-enriched semiconducting SWCNT as donors and fullerene as acceptor.Photochemical charge separation in supramolecular phthalocyanine-multifullerene conjugates assembled by crown ether-alkyl ammonium cation interactions.Sensitive efficiency of photoinduced electron transfer to band gaps of semiconductive single-walled carbon nanotubes with supramolecularly attached zinc porphyrin bearing pyrene glues.Photoinduced charge separation in a ferrocene-aluminum(III) porphyrin-fullerene supramolecular triad.Sequential charge separation in two axially linked phenothiazine-aluminum(III) porphyrin-fullerene triads.Protonation-induced red-coloured circularly polarized luminescence of [5]carbohelicene fused by benzimidazole.Controllable Electronic Structures and Photoinduced Processes of Bay-Linked Perylenediimide Dimers and a Ferrocene-Linked Triad.Synthesis of Tetrasilatetrathia[8]circulenes by a Fourfold Intramolecular Dehydrogenative Silylation of C-H Bonds.Shape- and functionality-controlled organization of TiO2-porphyrin-C60 assemblies for improved performance of photochemical solar cells.Photovoltaic cells using composite nanoclusters of porphyrins and fullerenes with gold nanoparticles.Photoinduced Processes of Supramolecular Nanoarrays Composed of Porphyrin and Benzo[ghi]perylenetriimide Units through Triple Hydrogen Bonds with One-Dimensional Columnar Phases.Photoelectrochemical properties of supramolecular composite of fullerene nanoclusters and 9-mesityl-10-carboxymethylacridinium ion on SnO2.Quaternary self-organization of porphyrin and fullerene units by clusterization with gold nanoparticles on SnO2 electrodes for organic solar cells.Photo- and electro-functional self-assembled architectures of porphyrins.High-Yield Excited Triplet States in Pentacene Self-Assembled Monolayers on Gold Nanoparticles through Singlet Exciton Fission.Graphene oxide-Li(+)@C60 donor-acceptor composites for photoenergy conversion.Systematic control of the excited-state dynamics and carrier-transport properties of functionalized benzo[ghi]perylene and coronene derivatives.Multi-color light-emitting transistors composed of organic single crystalsSynthesis and Electrochemical and Photophysical Properties of Azaterrylene DerivativesImplementation of redox gradients in hydrogen bonded complexes containing N,N-dimethylaniline, flavin and fullerene derivativesNear-Infrared Photoelectrochemical Conversion via Photoinduced Charge Separation in Supramolecular Complexes of Anionic Phthalocyanines with Li+@C60Zinc Phthalocyanine–Graphene Hybrid Material for Energy Conversion: Synthesis, Characterization, Photophysics, and Photoelectrochemical Cell PreparationEnhanced photoelectrochemical performance of composite photovoltaic cells of Li+@C60–sulphonated porphyrin supramolecular nanoclustersLarge photocurrent generation of gold electrodes modified with [60]fullerene-linked oligothiophenes bearing a tripodal rigid anchorEnhancement of light-energy conversion efficiency by multi-porphyrin arrays of porphyrin-peptide oligomers with fullerene clustersOrdered assembly of protonated porphyrin driven by single-wall carbon nanotubes. J- and H-aggregates to nanorodsSonication-assisted supramolecular nanorods of meso-diaryl-substituted porphyrinsFullerene-encapsulated porphyrin hexagonal nanorods. An anisotropic donor-acceptor composite for efficient photoinduced electron transfer and light energy conversionStacked-cup carbon nanotubes for photoelectrochemical solar cellsSynthesis and aggregate formation of triphenylene core-centered porphyrin hexamersPreparation and structural control of metal coordination-assisted supramolecular architectures of porphyrins. Nanocubes to microrodsDiameter-sorted SWCNT-porphyrin and SWCNT-phthalocyanine conjugates for light-energy harvestingControl of local structures and photophysical properties of zinc porphyrin-based supramolecular assemblies structurally organized by regioselective ligand coordinationSynthetic Control of the Excited-State Dynamics and Circularly Polarized Luminescence of Fluorescent "Push-Pull" Tetrathia[9]helicenes
P50
Q30988622-2B1C1BE6-8A33-49DC-ACA5-2652988E05C1Q33249712-D24EBCDE-26A9-4CA0-B7FA-79F5763C3968Q34129825-0B78D5AD-32B0-40B6-A880-B1C513A61514Q35669769-D4048244-D4C1-467E-AF90-FF07C6C7F65CQ39917467-FBB244F7-A07D-42C9-B597-4474EAE6D075Q40632613-38E30936-D06D-4722-B9A9-3362029E4728Q42850497-62784F2B-792F-4913-98A6-53F57B3E9354Q42878503-9C75A95D-D196-4593-A4AF-C177266CF28CQ43054978-137942DC-09D0-4C96-8CC2-FF0812BEAEF4Q43109872-F21C3E93-D4B3-4280-B0BF-48A5080197C2Q46188076-42D35BC7-D81E-4162-87C2-C4104F9C1201Q50237179-47169DD1-A7AE-44CB-8F7B-C1ECB0ACB246Q50238138-2DBE269D-73A5-4D32-BFFA-4D5B68AF1091Q50754606-B11E235F-C233-4B2C-9A5D-A81A0E147D80Q51023446-6B5084EA-8F33-4D54-835A-8FE20253EB63Q51549258-4C84949B-1F80-4B77-A56D-10EACDAF4F39Q51562171-7503450D-43F0-47FD-BF96-DBAE49B21DBCQ51627188-506D7799-64BC-4F70-83AB-90DA31F4B661Q51790117-D3568DB8-1428-4747-B862-55EA0EA85E5CQ53135701-C409EB6E-723C-47A9-B990-A44D9156123DQ53143763-448BEDD4-B63E-408C-8E0F-ABBB5CF46A04Q53224502-2652365D-054B-4FBD-BA3D-C725685999CDQ53519897-D1079169-8A44-4485-90AC-8E6483BB9155Q57730209-28E5177F-6E93-47BB-96F7-69B0D328B529Q58087075-07565532-7378-4386-85FA-646924A9B4CCQ58231954-111A62C1-1300-4B0F-9432-CA3EDCF1480AQ58430604-31C7DBBE-ED93-40BA-B9E8-39052E7635E1Q58430678-2A91C98D-C08A-4717-AE54-2C91286B1577Q62272681-A10B2EAD-CE9E-4ECA-8CB9-33E36BCA1671Q77529935-2031C8BE-5910-433C-89A0-5678AB4C1365Q79934118-7A2884E8-0853-4DA2-81CB-77D39B8D7EA2Q81102823-DA65BC09-3BBE-4481-9101-0E67E3B45C91Q81272816-89A8DE34-894F-451B-A1EC-1681AE3630EDQ81654672-D7C87218-CE26-4E99-A505-9F30A9B73933Q82046036-CFD8974C-A28B-4032-A307-D4EDEF642B15Q82671804-0AE62BBD-A8A9-494E-A182-AA6A979CA3CBQ83664679-6110ADA1-4DA6-4C6E-89BB-BF4BFAEE88C9Q84549628-6D0373CB-E89F-4C34-B4EA-337F547D2E03Q87177581-AD8EC599-015F-4760-A049-3B2112B0DBC5Q87264497-B48F0E5A-A7CB-4BFD-ADE3-F0C07529143F
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Taku Hasobe
@ast
Taku Hasobe
@en
Taku Hasobe
@es
Taku Hasobe
@nl
Taku Hasobe
@sl
type
label
Taku Hasobe
@ast
Taku Hasobe
@en
Taku Hasobe
@es
Taku Hasobe
@nl
Taku Hasobe
@sl
prefLabel
Taku Hasobe
@ast
Taku Hasobe
@en
Taku Hasobe
@es
Taku Hasobe
@nl
Taku Hasobe
@sl
P1053
C-2804-2008
P106
P108
P1153
6701451591
P31
P3829
P496
0000-0002-4728-9767