Issue 3, 2024

Discerning rise time constants to quantify charge carrier extraction in perovskite solar cells

Abstract

The small-perturbation analysis of perovskite solar cells (PSCs) highlights a fundamental conundrum – while time domain measurements yield two time constants corresponding to the rise and subsequent decay of the photovoltage or photocurrent, the corresponding frequency domain methods only yield one time constant from the analysis of the negative imaginary part of the transfer function. To solve this problem, we propose a modification of the frequency domain transfer function that focusses on the transition of its real part to negative values at high frequencies. After verification using drift-diffusion simulations and equivalent circuit analysis, the application of the method to experimental intensity-modulated photovoltage spectroscopy data of a PSC allows calculation of the hidden rise time constant, showing a good agreement with rise time constants obtained from transient photovoltage measurements. Combining these measurements with transient photoluminescence measurements allows calculation of the figure of merit (FOM) that determines the charge collection efficiency. We determine large FOM values between 0.7–0.95 at or close to the 1 sun open-circuit voltage, indicating a significant electric field exists in the transport layers that allows fast charge collection in these conditions.

Graphical abstract: Discerning rise time constants to quantify charge carrier extraction in perovskite solar cells

Supplementary files

Article information

Article type
Paper
Submitted
19 Jun 2023
Accepted
18 Dec 2023
First published
28 Dec 2023
This article is Open Access
Creative Commons BY license

Energy Environ. Sci., 2024,17, 1229-1243

Discerning rise time constants to quantify charge carrier extraction in perovskite solar cells

S. Ravishankar, L. Kruppa, S. Jenatsch, G. Yan and Y. Wang, Energy Environ. Sci., 2024, 17, 1229 DOI: 10.1039/D3EE02013D

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