Abstract

Hybrid composites of semiconducting polymers and metal oxides are promising combinations for solar cells. However, forming a well-controlled nanostructure with bicontinuous interpenetrating networks throughout the photoactive film is difficult to achieve. Pre-structured "mesoporous" metal oxide electrodes can act as a well-defined template for latter polymer infiltration. However, the long range infiltration of polymer chains into contorted porous channels has appeared to elude the scientific community, limiting the advancement of this technology. Here we present a structural and electronic characterisation of poly(3-hexylthiophene) (P3HT) infiltrated into mesoporous dye-sensitized TiO2. Through a combination of techniques we achieve uniform pore filling of P3HT up to depths of over 4 μm, but the volumetric fraction of the pores filled with polymer is less than 24%. Despite this low pore-filling, exceptionally efficient charge collection is demonstrated, illustrating that pore filling is not the critical issue for mesoporous hybrid solar cells.

Keywords

Mesoporous materialMaterials sciencePolymerPorosityNanotechnologyElectrodeNanostructureNanocompositePorous mediumChemical engineeringHybrid solar cellHybrid materialPolymer solar cellComposite materialChemistryCatalysisOrganic chemistry

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Publication Info

Year
2011
Type
article
Volume
4
Issue
8
Pages
3051-3051
Citations
70
Access
Closed

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Cite This

Agnese Abrusci, I‐Kang Ding, Mohammed Al‐Hashimi et al. (2011). Facile infiltration of semiconducting polymer into mesoporous electrodes for hybrid solar cells. Energy & Environmental Science , 4 (8) , 3051-3051. https://doi.org/10.1039/c1ee01135a

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DOI
10.1039/c1ee01135a