Abstract
We demonstrate that polymer tandem photovoltaic cells can be fabricated by transferring a polymer:fullerene layer of the top subcell onto the bottom subcell using a thin-film transfer technique. A cross-sectional transmission electron micrograph reveals that a molecularly intimate interface is formed between the transferred layer and a MoO3 layer. Consequently, a tandem cell whose subcells consist of an identical polymer:fullerene layer has an open-circuit voltage (Voc) of 1.23V that is equal to the summation of the subcell Voc's, with its fill factor reaching 62%. This technique allows one to fabricate tandem cells with materials dissolved in miscible solvents, thereby expanding the range of materials that can be used for photoactive layers and interlayers in solution-processed tandem photovoltaic cells.
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