Two-dimensional charge transport in self-organized, high-mobility conjugated polymers
about
Broadband All-Polymer Phototransistors with Nanostructured Bulk Heterojunction Layers of NIR-Sensing n-Type and Visible Light-Sensing p-Type Polymers.Structurally-driven Enhancement of Thermoelectric Properties within Poly(3,4-ethylenedioxythiophene) thin FilmsNoncontact potentiometry of polymer field-effect transistorsHarnessing Sun's Energy with Quantum Dots Based Next Generation Solar CellUnraveling the chromophoric disorder of poly(3-hexylthiophene).Understanding Solidification of Polythiophene Thin Films during Spin-Coating: Effects of Spin-Coating Time and Processing AdditivesSingle-Compound Libraries of Organic Materials: From the Combinatorial Synthesis of Conjugated Oligomers to Structure-Property Relationships This work was made possible with funds donated from Fonds der Chemischen Industrie, the BMBF (Kekulé grant tBroadband optical near-field microscope for nanoscale absorption spectroscopy of organic materials.Mesoscopic order and the dimensionality of long-range resonance energy transfer in supramolecular semiconductors.One-step nanopatterning of conjugated polymers by electron-beam-assisted electropolymerization.Ordered materials for organic electronics and photonics.A core-shell strategy for constructing a single-molecule junction.RETRACTED: Gate-induced superconductivity in a solution-processed organic polymer film.Organic semiconductors: a theoretical characterization of the basic parameters governing charge transportEnhanced performance of organic photovoltaic cells fabricated with a methyl thiophene-3-carboxylate-containing alternating conjugated copolymer.Touching polymer chains by organic field-effect transistors.General observation of n-type field-effect behaviour in organic semiconductors.Sub-micron phase coexistence in small-molecule organic thin films revealed by infrared nano-imagingSubstrate control of anisotropic resistivity in heteroepitaxial nanostructured arrays of cryptomelane manganese oxide on strontium titanate.Multi-barrier field-emission behavior in PBTTT thin films at low temperaturesAn effect of molecular motion on carrier formation in a poly(3-hexylthiophene) filmX-ray birefringence imaging.Photophysical, amplified spontaneous emission and charge transport properties of oligofluorene derivatives in thin films.Excellent spin transport in spin valves based on the conjugated polymer with high carrier mobility.Self-assembly polymorphism of 2,7-bis-nonyloxy-9-fluorenone: solvent induced the diversity of intermolecular dipole-dipole interactions.Absence of Structural Impact of Noble Nanoparticles on P3HT:PCBM Blends for Plasmon-Enhanced Bulk-Heterojunction Organic Solar Cells Probed by Synchrotron GI-XRD.Click Functionalization of a Dibenzocyclooctyne-Containing Conjugated Polyimine.Quantitative analysis of intermolecular interactions in orthorhombic rubrene.Optically switchable organic field-effect transistors based on photoresponsive gold nanoparticles blended with poly(3-hexylthiophene)Layered crystalline ZnIn2S4 nanosheets: CVD synthesis and photo-electrochemical properties.Imaging Nanoscale Morphology of Semiconducting Polymer Films with Photoemission Electron Microscopy.Quasi one-dimensional band dispersion and surface metallization in long-range ordered polymeric wires.Liquid crystal-on-organic field-effect transistor sensory devices for perceptive sensing of ultralow intensity gas flow touchPhotoconduction in amorphous organic solids.H-aggregate analysis of P3HT thin films-Capability and limitation of photoluminescence and UV/Vis spectroscopy.Precise Characterisation of Molecular Orientation in a Single Crystal Field-Effect Transistor Using Polarised Raman Spectroscopy.Influence of molecular designs on polaronic and vibrational transitions in a conjugated push-pull copolymerOrganic nonvolatile memory devices based on ferroelectricity.Side-chain modulation of dithienofluorene-based copolymers to achieve high field-effect mobilities.Regioregular narrow-bandgap-conjugated polymers for plastic electronics
P2860
Q27306730-225C55E7-D5E8-4531-A641-8B132C885626Q28595675-AA7456E2-2503-4F96-8A5B-22C0EA856CF4Q29030298-C14A5E86-8400-4B2B-B521-38406692FF45Q30378120-0A89B9E0-E223-42EB-B074-C53779B2832CQ30441704-F36CAAA5-2CBB-4909-811E-CD6E17B1C378Q30662259-A6A81E1A-0424-4491-8C4D-397C6FDE9EBDQ31116044-213133A3-1F43-4D16-B10B-3A24BC6493B5Q33321404-E931B431-4BB7-4038-B0B3-B2393307713DQ33388333-7C06E8DA-0124-4018-8BA9-4456170F529BQ33464612-E0773076-3A53-4401-AF43-F86D69A88153Q33806078-B667B220-C3CA-455E-9654-8B67FDBC2EFEQ33927716-0C5F41D5-38DD-4DFD-B455-A59546A64AC6Q33937340-C7D2959D-E250-42C4-AFF9-84BBD583A540Q34026702-BC8CD3F1-B5CE-4BD4-94E6-7B82D8BBC5DCQ34084545-72F3ED03-EA83-488D-B6F2-BE1FF37DF2C6Q34196511-1060ECC8-BE8E-4CDD-93EB-D1D32F7A5F72Q34401704-B176E4C5-CA4F-45AA-9850-145A65A200C0Q34423990-2745FC98-AB67-4139-B523-640893BC9064Q34872016-2D8BF06C-119B-4031-8454-D97A94B84C23Q35070155-CA5DFD14-50A1-4D20-A164-A5FD39B1C40BQ35081754-9D5C3E23-55E0-4642-B741-D2F544D5A3F8Q35176351-13656071-27E6-4BAF-A202-C4E479AAFF60Q35203346-83CC8E4A-30BD-49C0-BCFE-DCAF0228695CQ35206350-299121E8-2579-4B31-B5E6-F65E3E6CF337Q35536951-0E8EAF12-90C1-47FB-ADF6-2A950CE928BCQ35669807-B23F2EE1-2965-4B63-B70E-8E3FFA5095C4Q35862980-DF6EAADE-7833-4982-B460-02BFCFCAD676Q35991422-0F0FCE70-4A20-48E2-BEE2-E5E4EBA58B16Q36140219-D674D7E2-DE4F-4683-B81A-D7CE34F9E057Q36165686-EAC6E19E-44D4-4C3A-A7EF-42EDDF832DC6Q36373970-2ED8D8A5-0126-496A-B46D-1585DD847445Q36499086-87553D67-C551-4DC3-8A5B-E8FD3DCF5923Q37098357-2F32E1BC-7684-4D38-92AB-72E6D96F8A3AQ37126274-E598E5A5-6D20-425E-B560-4C0F7BE389A5Q37223468-6CFB1032-713F-4F9D-83F6-5DC7A6B9C6A3Q37251364-95E66E77-108D-4837-9FB3-B64108F23027Q37330345-B14207B3-C4E8-4B72-8D9C-3D16B3DA1ABEQ37706388-E93BE5B1-6813-47B0-8616-7E9D6203866BQ37733935-4E83C3E0-6382-4103-A1F6-57D09C08577FQ37736371-0FDDDCEB-CFAA-43A4-B2DD-BDE1A2938AF5
P2860
Two-dimensional charge transport in self-organized, high-mobility conjugated polymers
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature в жовтні 1999
@uk
name
Two-dimensional charge transport in self-organized, high-mobility conjugated polymers
@en
Two-dimensional charge transport in self-organized, high-mobility conjugated polymers
@nl
type
label
Two-dimensional charge transport in self-organized, high-mobility conjugated polymers
@en
Two-dimensional charge transport in self-organized, high-mobility conjugated polymers
@nl
prefLabel
Two-dimensional charge transport in self-organized, high-mobility conjugated polymers
@en
Two-dimensional charge transport in self-organized, high-mobility conjugated polymers
@nl
P2093
P356
P1433
P1476
Two-dimensional charge transport in self-organized, high-mobility conjugated polymers
@en
P2093
A. J. H. Spiering
B. M. W. Langeveld-Voss
D. M. de Leeuw
K. Bechgaard
M. M. Nielsen
P. J. Brown
R. A. J. Janssen
R. H. Friend
P2888
P304
P356
10.1038/44359
P407
P577
1999-10-14T00:00:00Z
P6179
1023580473