about
Melt crystallization/dewetting of ultrathin PEO films via carbon dioxide annealing: the effects of polymer adsorbed layers.Probing excited electronic states and ionisation mechanisms of fullerenes.The effect of donor content on the efficiency of P3HT:PCBM bilayers: optical and photocurrent spectral data analyses.Sub-nanometre resolution imaging of polymer-fullerene photovoltaic blends using energy-filtered scanning electron microscopy.Stability of polymer solar cells.Charge-extraction strategies for colloidal quantum dot photovoltaics.Advances in star-shaped π-conjugated systems: properties and applications.Abnormal strong burn-in degradation of highly efficient polymer solar cells caused by spinodal donor-acceptor demixing.Revelation of Interfacial Energetics in Organic Multiheterojunctions.Soft elastomeric nanopillar stamps for enhancing absorption in organic thin-film solar cells.Non-fullerene acceptors containing fluoranthene-fused imides for solution-processed inverted organic solar cells.Lanthanides: new metallic cathode materials for organic photovoltaic cells.α-Oligofurans: a computational study.Carbon Nanohorns Modified with Conjugated Terthienyl/Terthiophene Structures: Additives to Enhance the Performance of Dye-Sensitized Solar Cells.Broadening the Photoresponse to Near-Infrared Region by Cooperating Fullerene and Nonfullerene Acceptors for High Performance Ternary Polymer Solar Cells.Revealing the correlation between charge carrier recombination and extraction in an organic solar cell under varying illumination intensity.Purification and electronic characterisation of 18 isomers of the OPV acceptor material bis-[60]PCBM.Equation of motion coupled cluster methods for electron attachment and ionization potential in fullerenes C60 and C70.Solution-processable donor-acceptor polymers with modular electronic properties and very narrow bandgaps.N-Alkylthienopyrroledione versus benzothiadiazole pulling units in push-pull copolymers used for photovoltaic applications: density functional theory study.From charge-transfer to a charge-separated state: a perspective from the real-time TDDFT excitonic dynamics.Charge-carrier generation in organic solar cells using crystalline donor polymers.Organic/hybrid thin films deposited by matrix-assisted pulsed laser evaporation (MAPLE)Modeling low cost hybrid tandem photovoltaics with the potential for efficiencies exceeding 20%Effect of Polymer-Fullerene Interaction on the Dielectric Properties of the BlendCorrelating fullerene diffusion with the polythiophene morphology: molecular dynamics simulationsLocation, Location, Location - Strategic Positioning of 2,1,3-Benzothiadiazole Units within Trigonal Quaterfluorene-Truxene Star-Shaped StructuresBODIPY-based conjugated polymers for broadband light sensing and harvesting applicationsOligothiophene Cruciform with a Germanium Spiro Center: A Promising Material for Organic PhotovoltaicsCharge Carrier Localization and Transport in Organic Semiconductors: Insights from Atomistic Multiscale SimulationsRoom temperature-processed inverted organic solar cells using high working-pressure-sputtered ZnO filmsDefining donor and acceptor strength in conjugated copolymersInverted all-polymer solar cells based on a quinoxaline–thiophene/naphthalene-diimide polymer blend improved by annealingQuantifying local thickness and composition in thin films of organic photovoltaic blends by Raman scatteringResearch Update: Atmospheric pressure spatial atomic layer deposition of ZnO thin films: Reactors, doping, and devices
P2860
Q33461925-9E25EDAC-E273-4199-AEFA-180C4D971A9CQ34683240-9AE3C54E-4C02-42E2-8215-30C07462FEB4Q35506977-3A78D59B-51C2-42C3-8164-FCCF457F6B59Q35579438-D1618C82-D7E2-4645-A502-DFD20ABFAC66Q37972820-67BB70CC-4C2A-4634-B174-0D78A373D789Q38189650-3C922C14-789F-4891-8ADD-AD049AC715C6Q38202078-61C01EB2-4055-4297-8C92-8877D3EC838DQ41763244-670A1E85-01A3-4DEE-8F05-8421C60C59B1Q42291090-5BCFE61E-2D39-4F8F-80E9-C5FA39BC619CQ43502387-1978278E-D6C2-48AD-AE20-1F10E88ACFBEQ44957895-4DA50192-6DE9-4FA5-BDBC-956E879A8622Q45787344-1C846546-4320-42EF-9D34-37760E592338Q46929352-FE922A64-1A0D-4875-8A64-A6C67178860FQ47133558-9BBAC904-A66E-4350-AEAB-821FFF8B3E34Q47317735-0ED07800-B283-41D6-B58E-840145CCAE9AQ47655326-B3A7C894-1FBD-4E17-81B4-C9552D095ED9Q48102190-A62C1FC2-9928-4290-8A1A-3772744D5F89Q51051357-81AB78BC-D5AC-4ED6-BA4F-FFDB2C531166Q51070950-85864C32-5D8F-444A-BFB1-2A640BBB827DQ51609404-087F080E-43D2-4343-96F1-E2A58AAFA408Q53046027-308AC838-29A5-4905-AC53-1809C85E6D58Q53061222-56F3E9B7-45BB-493F-BDE7-6443A0684A44Q57377824-E0FED25E-B033-4A93-81CE-7BE5BEDC4617Q57379680-046DA966-5755-41B5-BA4D-F7302C324E18Q57425477-05CC9073-D337-4748-83A4-5D9D06616848Q57428726-DB4FD2BC-2D7C-44EC-8D72-97838BDE935BQ57565028-66AF3E40-7050-4BEA-B62F-B14764965F5FQ57565066-BCBECF56-87AB-47D7-ACC8-F696E822587FQ57565088-82506879-E1E2-428D-B422-05179250F8F5Q57761614-0BBB3A8B-8A04-42DD-850B-287E69842BF6Q57768672-9EB7AC02-5FB4-4A83-A230-EFA451BD64EBQ57797909-ADBDDACA-CA22-469D-A488-1B8A38D1CA91Q57798040-8A9E48BB-9C7F-486F-86EE-03B0649B062AQ58435100-5A2E02D9-F2A8-4FD9-85F5-AC579FDFC427Q58684222-C3C937F1-65D0-4207-850A-88ECA7590266
P2860
description
im Oktober 2011 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в жовтні 2011
@uk
name
Polymer:fullerene bulk heterojunction solar cells
@en
Polymer:fullerene bulk heterojunction solar cells
@nl
type
label
Polymer:fullerene bulk heterojunction solar cells
@en
Polymer:fullerene bulk heterojunction solar cells
@nl
prefLabel
Polymer:fullerene bulk heterojunction solar cells
@en
Polymer:fullerene bulk heterojunction solar cells
@nl
P1433
P1476
Polymer:fullerene bulk heterojunction solar cells
@en
P2093
Jenny Nelson
P304
P356
10.1016/S1369-7021(11)70210-3
P577
2011-10-01T00:00:00Z