From generation to collection – impact of deposition temperature on charge carrier dynamics of high-performance vacuum-processed organic solar cells

Pacalaj, RA; Dong, Y; Ramirez, I; MacKenzie, RCI; Hosseini, SM; Bittrich, E; Heger, JE; Kaienburg, P; Mukherjee, S; Wu, J; Riede, M; Ade, H; Müller-Buschbaum, P; Pfeiffer, M; Durrant, JR

Journal article

From generation to collection – impact of deposition temperature on charge carrier dynamics of high-performance vacuum-processed organic solar cells

Abstract:: Vacuum-processed organic solar cells (VP-OSCs) possess many advantages for scalability. However, as the academic community focusses on high performing solution-processed OSCs, detailed studies about the relation between morphology and device characteristics in VP-OSCs are rare. Here, we present a study on a model donor/fullerene VP-OSC system deposited at different substrate temperatures. Substrate heating results in increases in current density and fill factor (FF). Changes in morphology are characterised by grazing-incidence wide-angle scattering (GIWAXS) and resonant soft X-ray scattering (RSoXS). The increase in the degree of crystallinity and preferential orientation of the donor molecule in heated samples results in enhanced absorption increasing current density. The exciton and charge separation efficiency were studied by transient absorption and photoluminescence quenching and only showed minor differences. To study the FF differences, charge transport and non-geminate recombination are studied by optoelectronic measurements and device simulations. The charge carrier kinetics are governed by a large density of trap states. While the energetic disorder and non-geminate recombination under open circuit conditions remain largely unchanged, the increased effective mobility and lower transport disorder observed in photocurrent transients explain the increased collection efficiency for heated devices. We relate this to the increased donor phase purity. Our results suggest that charge recombination and transport are governed by different aspects of disorder related to amorphous and crystalline donor phases. Quantitative comparison with high FF solution-processed OSCs reveals that the low mobility limits FF. Finally, drift-diffusion simulations give an outlook for possible performance increases through further optimisation of the deposition control.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Pacalaj, R. A., Dong, Y., Ramirez, I., MacKenzie, R. C. I., Hosseini, S. M., Bittrich, E., Heger, J. E., Kaienburg, P., Mukherjee, S., Wu, J., Riede, M., Ade, H., Müller-Buschbaum, P., Pfeiffer, M., & Durrant, J. R. (2024). From generation to collection – impact of deposition temperature on charge carrier dynamics of high-performance vacuum-processed organic solar cells. Energy & Environmental Science, 17(23), 9215–9232.

MLA Style

Pacalaj, R. A., et al. “From Generation to Collection – Impact of Deposition Temperature on Charge Carrier Dynamics of High-Performance Vacuum-Processed Organic Solar Cells.” Energy & Environmental Science, vol. 17, no. 23, Royal Society of Chemistry, 2024, pp. 9215–32.

Chicago Style

Pacalaj, RA, Y Dong, I Ramirez, RCI MacKenzie, SM Hosseini, E Bittrich, JE Heger, et al. 2024. “From Generation to Collection – Impact of Deposition Temperature on Charge Carrier Dynamics of High-Performance Vacuum-Processed Organic Solar Cells.” Energy & Environmental Science 17 (23): 9215–32.
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