Full spectrum enhancement of the light harvesting efficiency of dye sensitized solar cells by including colloidal photonic crystal multilayers

Mihi, Agustín; López-Alcaraz, Francisco Javier; Míguez, Hernán

doi:10.1063/1.2200746

Cited by 92 publications

(87 citation statements)

References 15 publications

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“…In these specific experiments, DSSC required an opal with a lattice parameter that gives red photocurrent enhancement. Additionally it is possible to couple two or more 3DPC with different lattice parameters to enhance photocurrent in a wider spectral range (Mihi et al, 2006). Since this effect was confirmed theorically, we can mention that the disadvantage of these materials is the several steps involved to achieve these types of structures.…”

Section: Three Dimensional Ordered Structuresmentioning

confidence: 94%

Photon Management in Dye Sensitized Solar Cells

Colodrero¹,

Calvo²,

Míguez³

2010

Solar Energy

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Section: Three Dimensional Ordered Structuresmentioning

confidence: 94%

Photon Management in Dye Sensitized Solar Cells

Colodrero¹,

Calvo²,

Míguez³

2010

Solar Energy

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“…Miguez et al [13] suggested that photoelectric conversion efficiency could be improved by utilising an inverse opal with a particle size of approximately 200 nm. However, we found that IO356 exhibited the highest overall photoelectric conversion efficiency and the highest photoelectric conversion efficiency per one dye molecule.…”

Section: Resultsmentioning

confidence: 99%

“…In 2006, Miguez et al theoretically discussed the light harvesting effect of TiO 2 inverse opals in DSSCs [13,14]. They demonstrated that the light harvesting was the result of the optical absorption amplification effect of slow photon resonant modes partially confined within the absorbing part of the cell due to the mirror behaviour of the colloidal superlattice.…”

Section: Introductionmentioning

confidence: 99%

Pore size dependence of self-assembled type photonic crystal on dye-sensitized solar cells efficiency utilising Chlorine e6

et al. 2013

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There are few reports on photoelectric conversion efficiency using naturally-occurring dyes for dyesensitized solar cells (DSSC). This is because the matching with an excited electronic level of naturally-occurring dye to the conduction band of semiconductor is problematic; the excited electrons are easily relaxed to the steady state with fluorescence or heat emission. We examined the fluorescence inhibition effect of a self-assembled photonic crystal using Chlorine e6 dye. Chlorine e6 is derived from chlorophyll and has a long excited electron lifetime. We prepared TiO 2 inverse opals with various particle sizes by liquid phase deposition and described their effect on DSSCs with regard to structural, optical and electrochemical properties. In addition, we explored the implications of fluorescence lifetime measurements relative to the photonic band diagram and the amount of adsorbed dye. Although the main factor affecting the external photoelectric conversion efficiency was the diffusion resistance of the electrolyte and the contact resistance between TiO 2 interfaces, the possibility that the dye fluorescence lifetime, i.e. the photonic band structure, can affect the internal quantum efficiency per one dye molecule was also investigated.

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“…To confer order to the scattered light, Miguez proposed the selective mirror for DSC (Colodrero et al, 2009a) made out from colloidal TiO 2 suspensions (Wijnhoven & Vos, 1998;Colodrero et al, 2008). They consist in photonic crystals (PCs) (Yip et al, 2008;Colodrero et al, 2009b), introduced either inside the titania layer or on its backside (Nishimura et al, 2003;Mihi et al, 2006), currently under an intense experimentation. Scheme in Fig.…”

Section: Photon Managementmentioning

confidence: 99%