Blending Self-Assembled Monolayers for Enhanced Band Alignment and Improved Morphology in p‑i‑n Perovskite Photodetectors

Perovskite photodetectors, devices that convert light to electricity, require good extraction and low noise levels to maximize the signal-to-noise ratio. Self-assembling monolayers (SAMs) have been shown to be effective hole transport materials thanks to their atomic layer thickness, transparency, a...

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Bibliographic Details
Published in:ACS applied materials & interfaces 2024-07, Vol.16 (26), p.33838-33845
Main Authors: Angela, Edoardo, Nodari, Davide, Furlan, Francesco, Panidi, Julianna, McLachlan, Martyn A., Gasparini, Nicola
Format: Article
Language:English
Subjects:
Functional Inorganic Materials and Devices
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Summary:Perovskite photodetectors, devices that convert light to electricity, require good extraction and low noise levels to maximize the signal-to-noise ratio. Self-assembling monolayers (SAMs) have been shown to be effective hole transport materials thanks to their atomic layer thickness, transparency, and energetic alignment with the valence band of the perovskite. While efforts are being made to reduce noise levels via the active layer, little has been done to reduce noise via SAM interfacial engineering. Herein, we report hybrid perovskite photodetectors with high detectivity by blending two different SAMs (2-PACz and Me-4PACz). We find that with a 1:1 2-PACz:Me-4PACz ratio (by weight), the devices achieved a low noise of 1 × 10–13 A Hz–1/2, a high responsivity of 0.41 A W–1 at 710 nm, and a specific detectivity of 6.4 × 1011 Jones at 710 nm at −0.5 V, outperforming its two counterparts. In addition to the improved noise levels in these devices, impedance spectroscopy revealed that higher recombination lifetimes of 0.85 μs were achieved for the 1:1 2-PACz:Me-4PACz-based photodetectors, confirming their low defect density.
ISSN:1944-8244
1944-8252
1944-8252
DOI:10.1021/acsami.4c06447