Thermally Stable, Efficient Polymer Solar Cells with Nanoscale Control of the Interpenetrating Network Morphology
about
Highly efficient inverted polymer solar cell by low temperature annealing of Cs2CO3 interlayerEffects of germanium addition to copper phthalocyanine/fullerene-based solar cellsEffects of pressure and temperature on the carrier transports in organic crystal: a first-principles study.Fullerene dimers (C60/C70) for energy harvesting.Vertical phase separation in bulk heterojunction solar cells formed by in situ polymerization of fulleride.Electron Beam-Induced Current (EBIC) in solution-processed solar cells.Fluorenyl hexa-peri-hexabenzocoronene-dendritic oligothiophene hybrid materials: synthesis, photophysical properties, self-association behaviour and device performance.Enhanced performance of organic photovoltaic cells fabricated with a methyl thiophene-3-carboxylate-containing alternating conjugated copolymer.Vertical phase separation of conjugated polymer and fullerene bulk heterojunction films induced by high pressure carbon dioxide treatment at ambient temperature.GPU-accelerated computation of electron transfer.Single junction inverted polymer solar cell reaching power conversion efficiency 10.31% by employing dual-doped zinc oxide nano-film as cathode interlayer.Nanomorphology of P3HT:PCBM-based absorber layers of organic solar cells after different processing conditions analyzed by low-energy scanning transmission electron microscopy.Power generating reflective-type liquid crystal displays using a reflective polariser and a polymer solar cellCollection-limited theory interprets the extraordinary response of single semiconductor organic solar cells.Surface-Engineered Graphene Quantum Dots Incorporated into Polymer Layers for High Performance Organic Photovoltaics.Peculiarity of Two Thermodynamically-Stable Morphologies and Their Impact on the Efficiency of Small Molecule Bulk Heterojunction Solar CellsMorphology and Performance of Polymer Solar Cell Characterized by DPD Simulation and Graph Theory.High internal quantum efficiency in fullerene solar cells based on crosslinked polymer donor networks.Correlation between Hierarchical Structure and Processing Control of Large-area Spray-coated Polymer Solar Cells toward High Performance.Rapid and Checkable Electrical Post-Treatment Method for Organic Photovoltaic Devices.Barium: an efficient cathode layer for bulk-heterojunction solar cellsAddition of P3HT-grafted Silica nanoparticles improves bulk-heterojunction morphology in P3HT-PCBM blends.High-Performance Polymer Solar Cells Based on a Wide-Bandgap Polymer Containing Pyrrolo[3,4-f]benzotriazole-5,7-dione with a Power Conversion Efficiency of 8.63Understanding the Impact of Hierarchical Nanostructure in Ternary Organic Solar CellsPolymer Nanodot-Hybridized Alkyl Silicon Oxide Nanostructures for Organic Memory Transistors with Outstanding High-Temperature Operation Stability.Design and application of carbon nanomaterials for photoactive and charge transport layers in organic solar cells.High performance polymer solar cells with as-prepared zirconium acetylacetonate film as cathode buffer layer.Influence of blend microstructure on bulk heterojunction organic photovoltaic performance.Pyrazolinofullerenes: a less known type of highly versatile fullerene derivatives.Organic photoresponse materials and devices.Structure-property optimizations in donor polymers via electronics, substituents, and side chains toward high efficiency solar cells.Basic aspects for improving the energy conversion efficiency of hetero-junction organic photovoltaic cells.Nanochemistry and nanomaterials for photovoltaics.Polymers for electronics and spintronics.Optimization of molecular organization and nanoscale morphology for high performance low bandgap polymer solar cells.Free carrier generation in organic photovoltaic bulk heterojunctions of conjugated polymers with molecular acceptors: planar versus spherical acceptors.Molecular materials for organic photovoltaics: small is beautiful.Semiconductor and metallic core-shell nanostructures: synthesis and applications in solar cells and catalysis.Branched terthiophenes in organic electronics: from small molecules to polymers.Organic photovoltaic cells: from performance improvement to manufacturing processes.
P2860
Q29039178-B4074CE6-B982-4C18-967E-F89E1FDB73A0Q29999651-E9F36EEE-3864-420D-8C1E-0D624B827918Q33439929-F37DEECB-EC17-41C0-B4AC-07164DCE1420Q33515307-1B642E98-04A4-4D1A-877F-DCD4042CFBB8Q33664371-98A4B2DA-D3DD-4477-80BD-00FB69F2FCB5Q33861744-AC77AF3A-009F-4E4F-B2C1-CAA86D6FE835Q33871165-15395768-BB27-42D6-842D-7FEA565AFC23Q34084545-B660AD9A-0126-492E-80D2-B78B692C4D19Q34269877-0CFF36D4-C0F4-4AA2-9D2A-D665238B3539Q34357442-D7718D57-BDA9-4335-95F3-4E1C6BBF6CE4Q34417434-ABCE1729-10FA-4835-8B06-7215D0E90319Q34481294-197F7426-451E-4E90-A5BA-C1993D3ED68AQ35769781-BDA2510E-EA2B-44D7-A984-86A251187326Q36056740-242E149C-B8BA-4D30-A411-55AF16663302Q36099298-16382119-B0F2-4178-BB31-A1E5214495E8Q36273645-E45EE322-4C09-4E4F-864D-885CE448EDD7Q36298044-8493C807-2E6A-4834-9B41-1AD7189280B0Q36503213-B56C510F-90FA-4356-BB84-857B8D7965F6Q36512316-527C2C9D-178F-4040-B932-9383D1039428Q36638493-096DBD48-A4A2-424C-9A3A-83B6B5B2FE6BQ36917512-D6DBCEE1-10E3-454D-8A22-E3B7A14CFA71Q37257606-9391E795-7834-492C-8ADD-E084649410DBQ37291864-65383826-1988-45EC-8770-B4E41588E3B5Q37309044-1355D9D3-A807-4111-8D5E-596036B93504Q37310710-20A3B936-2144-49D8-B293-26E7A2B80C6EQ37610349-03B733AE-5A68-4FBB-97DC-7D96FB8B277FQ37702770-67D34CF1-86FB-400D-8044-EC156ED5C2C9Q37809980-B25C8B34-8E91-46B9-BC55-92041554818DQ37890266-27D07F3A-1D60-4266-B226-DC46703743A8Q37967147-C403689E-4620-4793-A639-8097F1179456Q38010388-472091DA-DD01-42C9-981D-111B07A17397Q38121540-242790A3-6204-495D-91E7-A29B8163BD59Q38122654-8984247A-A3E8-46E0-BEFB-DC34DE354249Q38137004-E30933AE-C045-4007-83C5-10A164213002Q38183647-5BC71A17-E3F8-4421-B98D-8BAF8D079789Q38193767-BEF739AC-8AA8-4AFA-864A-36882750D57BQ38200929-782733D0-ACDA-4220-AE38-FF91997FB723Q38231986-382FECE5-262A-4BEF-849B-2B72D71E957CQ38275866-EC923E1E-550B-4F7E-9782-0AFB669527EFQ38315345-78B6339A-DAAF-4C5D-89E8-31D6CE5090CC
P2860
Thermally Stable, Efficient Polymer Solar Cells with Nanoscale Control of the Interpenetrating Network Morphology
description
im Oktober 2005 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в жовтні 2005
@uk
name
Thermally Stable, Efficient Po ...... penetrating Network Morphology
@en
Thermally Stable, Efficient Po ...... penetrating Network Morphology
@nl
type
label
Thermally Stable, Efficient Po ...... penetrating Network Morphology
@en
Thermally Stable, Efficient Po ...... penetrating Network Morphology
@nl
prefLabel
Thermally Stable, Efficient Po ...... penetrating Network Morphology
@en
Thermally Stable, Efficient Po ...... penetrating Network Morphology
@nl
P2093
P356
P1476
Thermally Stable, Efficient Po ...... penetrating Network Morphology
@en
P2093
P304
P356
10.1002/ADFM.200500211
P407
P577
2005-10-01T00:00:00Z