Influence of the sensitizer adsorption mode on the open-circuit potential of dye-sensitized solar cells

Filippo De Angelis; Simona Fantacci; Annabella Selloni; Michael Grätzel; Mohammed K Nazeeruddin; Mohammad K Nazeeruddin

doi:10.1021/nl071835b

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Influence of the sensitizer adsorption mode on the open-circuit potential of dye-sensitized solar cells

Journal article

Peer reviewed

Influence of the sensitizer adsorption mode on the open-circuit potential of dye-sensitized solar cells

Filippo De Angelis, Simona Fantacci, Annabella Selloni, Michael Grätzel, Mohammed K Nazeeruddin and Mohammad K Nazeeruddin

Nano letters, Vol.7(10), pp.3189-3195

01/10/2007

DOI: https://doi.org/10.1021/nl071835b

PMID: 17854229

Abstract

Adsorption

Coloring Agents - chemistry

Coloring Agents - radiation effects

Computer Simulation

Electric Power Supplies

Electromagnetic Fields

Equipment Design

Equipment Failure Analysis

Light

Models, Chemical

Nanostructures - chemistry

Nanostructures - radiation effects

Nanotechnology - instrumentation

Nanotechnology - methods

Titanium - chemistry

Titanium - radiation effects

Transducers

We report a combined experimental and theoretical study on the origin of the different open circuit potentials observed in dye-sensitized solar cells using Ru(II)-polypyridyl homoleptic and heteroleptic sensitizers. We have measured the photovoltaic data of different sensitizers and used DFT calculations to analyze the electronic structure of dye-sensitized TiO(2) nanoparticles. Heteroleptic sensitizers adsorb onto TiO(2) via a single bipyridine, leading to a TiO(2) conduction band downshift and overall reduction of the cell open circuit potential.

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Title: Influence of the sensitizer adsorption mode on the open-circuit potential of dye-sensitized solar cells
Creators - without role: Filippo De Angelis - Princeton University
Simona Fantacci - Princeton University
Annabella Selloni - Princeton University
Michael Grätzel - Princeton University
Mohammed K Nazeeruddin
Mohammad K Nazeeruddin - Prince Mohammad Bin Fahd University
Publication Details: Nano letters, Vol.7(10), pp.3189-3195
Identifiers: 9925169008331
Academic Unit: Prince Mohammad Bin Fahd University
Language: English
Resource Type: Journal article