Modeling and interpretation of electrical impedance spectra of dye solar cells operated under open-circuit conditions

Kern, Rainer; Sastrawan, R.; Ferber, J.; Stangl, Rolf; Luther, Joachim

doi:10.1016/s0013-4686(02)00444-9

Cited by 1,201 publications

(792 citation statements)

References 32 publications

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“…73 Recently, many studies have determined the properties of DSC using EIS. 40,64,66,[74][75][76][77][78] This technique has the advantage of identifying different types of operational elements, consisting either in electronic or ionic processes, in photoelectrochemical devices.…”

Section: Basic Features Of Nanostructured Electrochemical Devicesmentioning

confidence: 99%

Physical electrochemistry of nanostructured devices

Bisquert

2008

Phys. Chem. Chem. Phys.

244

273

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Section: Basic Features Of Nanostructured Electrochemical Devicesmentioning

confidence: 99%

Physical electrochemistry of nanostructured devices

Bisquert

2008

Phys. Chem. Chem. Phys.

244

273

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“…Usually, in these systems, the electronic communication between the large internal surface covered with optically active molecules and the external contact occurs by electron transport through the assembly of sintered semiconductor nanoparticles. Impedance spectroscopy has proved to be a very useful technique for the characterization of properties of dye solar cells 1,[19][20][21][22] and electrochromic windows. 23 Recently, a new approach has been taken [24][25][26][27][28] toward electric and electrooptic devices formed by molecular functionalized mesoscopic oxides, such as photovoltaic cells, sensors, and Figure 1.…”

Section: Introductionmentioning

confidence: 99%

Three-Channel Transmission Line Impedance Model for Mesoscopic Oxide Electrodes Functionalized with a Conductive Coating

et al. 2006

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A three-channel transmission line (TL) impedance model is proposed to address the charge transport behavior of molecular functionalized mesoscopic oxide electrodes at different bias conditions. A full general solution of the three-channel TL for the system is provided in this paper. Selected experimental results of impedance spectroscopy of mesoscopic Al 2 O 3 and TiO 2 networks, covered with a monolayer of Ru complex cis-RuLL′-(NCS) 2 (L ) 2,2′-bipyridyl-4,4′-dicarboxylic acid, L′ ) 4,4′-dinonyl-2,2′-bipyridyl) (Z907), are briefly discussed. It shows that the model constitutes a useful tool for characterizing nanoporous electrodes functionalized with organic conducting layers in the surface. The model makes it possible to determine the separate conductivity of substrate oxide and molecular layer, and interfacial charge transfer, in the functionalized nanostructured electrodes.

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“…In this sense, the effect of the aging process in the overall performance of device A was analyzed by means of electrochemical impedance spectroscopy. This technique allows us to determine the charge-transfer resistances at the platinum counter-electrode and at the TiO 2 /dye/electrolyte interface as well as to determine the Nernstian diffusion of I − /I − 3 ions within the electrolyte [10,20]. The Bode and Nyquist (Z -imaginary part of impedance versus Z -real part of impedance) plots for the potassium-based system, before and after the aging process, are shown in Figure 4.…”

Section: Resultsmentioning

confidence: 99%

“…This technique has been widely used for the characterization of several electrochemical systems and, in particular, to analyze internal resistances in the DSCs [10][11][12][13][14][15][16][17][18][19]. In 2000 Bisquert et al applied their models in the analysis of the mechanisms of electron recombination in nanoporous TiO 2 dye-sensitized solar cells [18].…”

Section: Introductionmentioning

confidence: 99%

“…In 2000 Bisquert et al applied their models in the analysis of the mechanisms of electron recombination in nanoporous TiO 2 dye-sensitized solar cells [18]. After this first approach, EIS became more and more useful, playing a crucial role in what concerns modeling and understanding the complex charge phenomena occurring in DSCs [10][11][12][13][14][15][16][17][18][19]. The charge-transfer resistance at the TCO layer, the charge-transfer resistance at the counterelectrode/electrolyte interface, and the charge-transfer resistance at TiO 2 /dye/electrolyte interface can therefore be obtained by fitting the EIS results to appropriate equivalent electrical circuits [20].…”

Section: Introductionmentioning

confidence: 99%

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Influence of Different Cations of N3 Dyes on Their Photovoltaic Performance and Stability

Andrade

Zakeeruddin

Nazeeruddin

et al. 2009

International Journal of Chemical Engineering

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The N3 dye was modified by substituting two of its protons by potassium or sodium cations. The performance and stability of dye-sensitized solar cells incorporating the new dyes were evaluated under light soaking (1000 W · m −2 ) at 50 • C. Photocurrent measurements demonstrated that proton substitution by potassium cations rends the system more stable. Further characterization of the potassium-based devices was performed by electrochemical impedance spectroscopy to investigate the charge-transfer phenomena occurring at the different interfaces of the cells.

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Modeling and interpretation of electrical impedance spectra of dye solar cells operated under open-circuit conditions

Cited by 1,201 publications

References 32 publications

Physical electrochemistry of nanostructured devices

Physical electrochemistry of nanostructured devices

Three-Channel Transmission Line Impedance Model for Mesoscopic Oxide Electrodes Functionalized with a Conductive Coating

Influence of Different Cations of N3 Dyes on Their Photovoltaic Performance and Stability

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