Ionic silsesquioxane-capped Au nanoparticle powders: Application in P3HT/PCBM solar cells and the effect of the capping layer on surface plasmon dumping

Ionic silsesquioxane-capped Au nanoparticle powders: Application in P3HT/PCBM solar cells and the effect of the capping layer on surface plasmon dumping

Ionic silsesquioxane-capped gold nanoparticle powders presenting narrow size distribution were synthesised, characterised and applied in the assembly of organic solar cells. The assembled devices were electrically modelled, and the nanoparticles encapsulated with a charged pendant silsesquioxane wer...

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Veröffentlicht in:Materials chemistry and physics 2018-02, Vol.206, p.204-212
Hauptverfasser: de Antoni, Lílian O., de Menezes, Eliana W., Loguercio, Lara F., Flores Rodrigues, Marcos R., Lopes de Andrade, Rocelito, Costa, Tania M.H., Benvenutti, Edilson V., Leite Santos, Jacqueline F., Leite Santos, Marcos J.
Format: Artikel
Sprache:eng
Schlagworte:
Capping
Charging
Dumping
Electrical properties
Encapsulation
Gold
Gold nanoparticles
Nanoparticles
Organic chemistry
Organic solar cells
Organosilane
P3HT
Photoelectric effect
Photoelectric emission
Photovoltaic cells
Plasmonic material
Silica
Silica-based hybrid material
Size distribution
Solar cells
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Zusammenfassung:Ionic silsesquioxane-capped gold nanoparticle powders presenting narrow size distribution were synthesised, characterised and applied in the assembly of organic solar cells. The assembled devices were electrically modelled, and the nanoparticles encapsulated with a charged pendant silsesquioxane were found to provide enhanced photocurrent, and to result in better electrical properties than those capped with bridged double-charged silsesquioxane. Therefore, thinner layers of encapsulation result in higher efficiency.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2017.11.056