An organic redox electrolyte to rival triiodide/iodide in dye-sensitized solar cells
Author: ["Mingkui Wang","Nathalie Chamberland","Livain Breau","Jacques-E. Moser","Robin Humphry-Baker","Benoît Marsan","Shaik M. Zakeeruddin","Michael Grätzel"]
Publication: Nature Chemistry
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Abstract
Dye-sensitized solar cells (DSCs) have achieved impressive conversion efficiencies for solar energy of over 11% with an electrolyte that contains triiodide/iodide as a redox couple. Although triiodide/iodide redox couples work efficiently in DSCs, they suffer from two major disadvantages: electrolytes that contain triiodide/iodide corrode electrical contacts made of silver (which reduces the options for the scale up of DSCs to module size) and triiodide partially absorbs visible light. Here, we present a new disulfide/thiolate redox couple that has negligible absorption in the visible spectral range, a very attractive feature for flexible DSCs that use transparent conductors as current collectors. Using this novel, iodide-free redox electrolyte in conjunction with a sensitized heterojunction, we achieved an unprecedented efficiency of 6.4% under standard illumination test conditions. This novel redox couple offers a viable pathway to develop efficient DSCs with attractive properties for scale up and practical applications. Although the triiodide/iodide redox couple works efficiently in dye-sensitized solar cells it restricts functionality by absorbing visible light. Now, a disulfide/thiolate redox couple that has negligible absorption in the visible spectral range is presented, which in conjunction with a sensitized heterojunction, displays an efficiency of 6.4% under standard illumination test conditions.
Cite this article
Wang, M., Chamberland, N., Breau, L. et al. An organic redox electrolyte to rival triiodide/iodide in dye-sensitized solar cells. Nature Chem 2, 385–389 (2010). https://doi.org/10.1038/nchem.610