Exciton Quenching Close to Polymer−Vacuum Interface of Spin-Coated Films of Poly(<i>p</i>-phenylenevinylene) Derivative

Mikhnenko, Oleksandr V.; Cordella, Fabrizio; Sieval, Alexander B.; Hummelen, Jan C.; Blom, Paul W. M.; Loi, Maria Antonietta

doi:10.1021/jp9012637

Cited by 18 publications

(15 citation statements)

References 37 publications

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“…Meanwhile, ZnPc excitons at the interface with quartz glass or vacuum are expected to reflect, with vacuum being known as an imperfectly reflecting medium. [25] For a conjoint analysis (details in Section SI.9 in the Supporting Information) of both thin-film sets, a remarkably good agreement is obtained between all measured and modeled PL decays (Figure 3 bottom). The diffusion length ℓ d = (9.6 ± 0.8) nm is obtained using a Förster radius of (1.4 ± 0.4) nm, and agrees well with the value obtained via spectral modeling, presented earlier.…”

Section: Doi: 101002/adma201604424mentioning

confidence: 68%

Exciton Diffusion Length and Charge Extraction Yield in Organic Bilayer Solar Cells

et al. 2017

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A method for resolving the diffusion length of excitons and the extraction yield of charge carriers is presented based on the performance of organic bilayer solar cells and careful modeling. The technique uses a simultaneous variation of the absorber thickness and the excitation wavelength. Rigorously differing solar cell structures as well as independent photoluminescence quenching measurements give consistent results.

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Section: Doi: 101002/adma201604424mentioning

confidence: 68%

Exciton Diffusion Length and Charge Extraction Yield in Organic Bilayer Solar Cells

et al. 2017

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“…We would like to stress the complexity and lack of understanding of the dark states problem in conjugated polymers even more by mentioning yet another recently reported mysterious quenching effect by a surface of a pristine CP film placed in vacuum56 and effects of bending of the conjugated backbone on its spectral and electronic properties 57…”

Section: Resultsmentioning

confidence: 99%

Cyclodextrin Insulation Prevents Static Quenching of Conjugated Polymer Fluorescence at the Single Molecule Level

Thomsson

Camacho

Tian

et al. 2013

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Conjugated polymers (CPs) are promising materials for fluorescence imaging application. However, a significant problem in this field is the unexplained abnormally low fluorescence brightness (or number of fluorescence photons detected per one excitation photon) exhibited by most of CP single chains in solid polymer hosts. Here it is shown that this detrimental effect can be fully avoided for short chains of polyfluorene-bis-vinylphenylene (PFBV) embedded in a host polymer matrix of PMMA, if the conjugated backbone is insulated by cyclodextrin rings to form a polyrotaxane (PFBV-Rtx). Fluorescence kinetics and quantum yields are measured for the polymers in liquid solutions, pristine films, and solid PMMA blends. The fluorescence brightness of PFBV-Rtx single chains dispersed in a solid PMMA is very close to that expected for a chain with 100% fluorescence quantum yield, while the unprotected PFBV chains of the same length possess 4 times lower brightness. Despite this, the fluorescence decay kinetics are the same for both polymers, suggesting the presence of static or ultrafast fluorescence quenching in the unprotected polymer. About 80% of an unprotected PFBV chain is estimated to be completely quenched. The hypothesis is that the cyclodextrin rings prevent the quenching by working as 'bumpers' reducing the mechanical forces applied by the host polymer to the conjugated backbone and help retaining its conformational freedom. While providing a recipe for making CP fluorescence bright at the single-molecule level, these results identify a lack of fundamental understanding in the community of the influence of the environment on excited states in conjugated materials.

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“…The low PCE and high fill factor are typical of a hierarchical phase separation as in a bilayer‐like film. In this kind of device only a narrow layer near the planar heterojunction is involved in the exciton separation due to the limited exciton diffusion length, strongly limiting the device performance . To further understand vertical charge transport, electron‐only and hole‐only diodes devices were also fabricated using this solvent (see details in the Experimental Section).…”

Section: Photovoltaic and Transport Parameters For P3ht:p(ndi2od‐t2) mentioning

confidence: 99%

“…Recently it was found that CN suppresses the pre‐aggregation of P(NDI2OD‐T2) in solution, thus improving the solar cell performance mainly by a more efficient photogeneration of free charge carriers in the film bulk . Indeed, because light‐induced excitons in BHJ‐PSCs usually have short exciton diffusion lengths of only a few nanometers, typically less than 10 nm for several organic semiconductors, a fine donor/acceptor phase separation results in efficient exciton dissociation. The improved vertical charge transport for the film processed from the xylene:CN mixture is corroborated by a two/ten fold increase in space‐charge limited current mobilities ( μ e = 2.2 × 10 −4 cm 2 V −1 s −1 and μ h = 3.4 × 10 −4 cm 2 V −1 s −1 ).…”

Section: Photovoltaic and Transport Parameters For P3ht:p(ndi2od‐t2) mentioning

confidence: 99%

Charge Transport Orthogonality in All‐Polymer Blend Transistors, Diodes, and Solar Cells

Fabiano

Himmelberger

Drees

et al. 2013

Advanced Energy Materials

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Polymer aggregation and phase separation of polymer–polymer blends are effectively tuned from self‐stratified to laterally phase‐separated by adjusting the relative solubility of the two polymers in the mixture. This is found to dramatically alter the charge transport characteristics from a preferential in‐plane to an out‐of‐plane direction, revealing the critical dependence of the resulting device performance on the film morphology and structure of the active layer.

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Exciton Quenching Close to Polymer−Vacuum Interface of Spin-Coated Films of Poly(p-phenylenevinylene) Derivative

Cited by 18 publications

References 37 publications

Exciton Diffusion Length and Charge Extraction Yield in Organic Bilayer Solar Cells

Exciton Diffusion Length and Charge Extraction Yield in Organic Bilayer Solar Cells

Cyclodextrin Insulation Prevents Static Quenching of Conjugated Polymer Fluorescence at the Single Molecule Level

Charge Transport Orthogonality in All‐Polymer Blend Transistors, Diodes, and Solar Cells

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