Nanotechnology Now - Press Release: Cobalt Replacements Make Solar Cells More Sustainable

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The dye-sensitized solar cell (DSC) converts light to electricity. A coloured copper complex absorbs light and injects an electron into a semiconductor. This electron then passes around a circuit, does work, and is eventually returned to the copper to regenerate the dye by a transport system. In this new work, the cobalt complex acts as an electron transport agent between the cathode and the dye molecules allowing the photocurrent to flow.

Adapted with permission from Bozic-Weber et al., Chem. Commun., 2013,49, 7222-7224 | doi: 10.1039/C3CC44595J. Š 2013 Royal Society of Chemistry

Abstract:
Researchers at the University of Basel have successfully replaced the rare element iodine in copper-based dye-sensitized solar cells by the more abundant element cobalt, taking a step forward in the development of environmentally friendly energy production. The journal ŤChemical Communicationsť has published the results of these so-called Cu-Co cells.

Cobalt Replacements Make Solar Cells More Sustainable

Basel, Switzerland | Posted on August 2nd, 2013

Dye-sensitized solar cells (DSCs) transform light to electricity. They consist of a semiconductor on which a dye is anchored. This colored complex absorbs light and through an electron transfer process produces electrical current. Electrolytes act as electron transport agents inside the DSCs.

Usually, iodine and iodide serve as an electrolyte. Chemists at the University of Basel have now been able to successfully replace the usual iodine-based electron transport system in copper-based DSCs by a cobalt compound. Tests showed no loss in performance.

The replacement of iodine significantly increases the sustainability of solar cells: ŤIodine is a rare element, only present at a level of 450 parts per billion in the Earth, whereas cobalt is 50 times more abundantť, explains the Project Officer Dr. Biljana Bozic-Weber. Furthermore, this replacement also removes one of the long-term degradation processes in which copper compounds react with the electrolyte to form copper iodide and thus improves the long-term stability of DSCs.

The research group around the Basel chemistry professors Ed Constable and Catherine Housecroft is currently working on optimizing the performance of DSCs based on copper complexes. They had previously shown in 2012 that the very rare element ruthenium in solar cells could be replaced by copper derivatives.

This is the first report of DSCs, which combine copper-based dyes and cobalt electrolytes and thus represents a critical step towards the development of stable iodide-free copper solar cells. However, many aspects relating to the efficiency need to be addressed before commercialization can begin in anything other than niche markets.

Molecular Systems Engineering

ŤIn changing any one component of these solar cells, it is necessary to optimize all other parts as a consequenceť, says Ed Constable. This is part of a new approach termed ŤMolecular Systems Engineeringť in which all molecular and material components of a system can be integrated and optimized to approach new levels of sophistication in nanoscale machinery. In this publication, the engineering of the electrolyte, the dye and the semiconductor are all described.

This systems chemistry approach is particularly appropriate for the engineering of inorganic-biological hybrids and is the basis of ongoing collaborations with the ETH Department of Biosystems Engineering in Basel (D-BSSE) and EMPA. A joint proposal by the University of Basel and D-BSSE for a new National Centre of Competence in Research in this area is currently in the final stages of appraisal.

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University of Basel
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Prof. Dr. Edwin Constable
University of Basel
Department of Chemistry
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4056 Basel, Switzerland