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HL: Fachverband Halbleiterphysik

HL 41: Perovskite and photovoltaics III (joint session HL/CPP)

HL 41.5: Vortrag

Mittwoch, 18. März 2020, 10:30–10:45, POT 251

How does strain impact the solar cell performance at grain boundaries? — •Michael Stuckelberger¹, Irene Calvo-Almazán², Martin Holt², Megan Hill³, Siddharth Maddali², Mariana Bertoni⁴, Xiaojing Huang⁵, Hanfei Yan⁵, Evgeny Nazaretski⁵, Yong Chu⁵, Andrew Ulvestad², and Stephan Hruszkewycz² — ¹DESY, Hamburg, Germany — ²ANL, Lemont IL, USA — ³Northwestern University, Evanston IL, USA — ⁴ASU, Tempe AZ, USA — ⁵BNL, Upton NY, USA

Grain boundaries (GB) often limit the conversion efficiency of polycrystalline solar cells. Strain is particularly detrimental there, as it enhances the defect concentration and band fluctuations, leading to increased recombination rates. Unfortunately, standard methods cannot easily measure the strain distribution in working thin-film devices.

Based on nanodiffraction experiments, we demonstrate the assessment of the strain distribution at sub-100-nm resolution. In a multimodal detector design, we combined nanodiffraction with X-ray fluorescence (XRF) and X-ray beam induced current (XBIC) measurements. Mapping individual grains, this enabled us to correlate point-by-point the strain with composition and performance within grains and at GB.

In CIGS solar cells, we found that the strain increases towards GB, which is accompanied by an increase of the charge collection efficiency. In contrast, we found a decreasing lattice constant towards GB in CdTe solar cells. Similar correlative experiments are ongoing on perovskite solar cells, and we will present the latest results.