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Novel Atmospheric Growth Technique to Improve Both Light Absorption and Charge Collection in ZnO/Cu 2 O Thin Film Solar Cells

2013; Wiley; Volume: 23; Issue: 27 Linguagem: Inglês

10.1002/adfm.201203243

1616-3028

Andrew Marin, David Muñoz‐Rojas, Diana C. Iza, Talia Gershon, Kevin P. Musselman, Judith L. MacManus‐Driscoll,

Electronic and Structural Properties of Oxides

Abstract In low temperature grown ZnO/Cu 2 O solar cells, there is a discrepancy between collection length and depletion width in the Cu 2 O which makes the simultaneous achievement of efficient charge collection and high open‐circuit voltage problematic. This is addressed in this study by fabricating ZnO/Cu 2 O/Cu 2 O + back surface field devices using an atmospheric atomic layer deposition (AALD) printing method to grow a sub‐200‐nm Cu 2 O + film on top of electrodeposited ZnO and Cu 2 O layers. The AALD Cu 2 O + has a carrier concentration around 2 orders of magnitude higher than the electrodeposited Cu 2 O, allowing the electrodeposited Cu 2 O layer thickness in a back surface field cell to be reduced from 3 μm to the approximate charge collection length, 1 μm, while still allowing a high potential to be built into the cell. The dense conformal nature of the AALD layer also blocks shunt pathways allowing the voltage enhancement to be maintained. The thinner cell design reduces recombination losses and increases charge collection from both incident light and light reflected off the back electrode. Using this design, a short circuit current density of 6.32 mA cm −2 is achieved–the highest reported J SC for an atmospherically deposited ZnO/Cu 2 O device to date.