Photo-excited hot carrier dynamics in hydrogenated amorphous silicon imaged by 4D electron microscopy

Nature Nanotechnology 12, 871 (2017). doi:10.1038/nnano.2017.124 Authors: Bolin Liao, Ebrahim Najafi, Heng Li, Austin J. Minnich & Ahmed H. Zewail Charge carrier dynamics in amorphous semiconductors has been a topic of intense research that has been propelled by modern applications in thin-film solar cells, transistors and optical sensors. Charge transport in these materials differs fundamentally from that in crystalline semiconductors owing to the lack of long-range order and high defect density. Despite the existence of well-established experimental techniques such as photoconductivity time-of-flight and ultrafast optical measurements, many aspects of the dynamics of photo-excited charge carriers in amorphous semiconductors remain poorly understood. Here, we demonstrate direct imaging of carrier dynamics in space and time after photo-excitation in hydrogenated amorphous silicon (a-Si:H) by scanning ultrafast electron microscopy (SUEM). We observe an unexpected regime of fast diffusion immediately after photoexcitation, together with spontaneous electron–hole separation and charge trapping induced by the atomic disorder. Our findings demonstrate the rich dynamics of hot carrier transport in amorphous semiconductors that can be revealed by direct imaging based on SUEM.
Source: Nature Nanotechnology - Category: Nanotechnology Authors: Tags: Letter Source Type: research