Josephine Surel

Approaching the radiative limits for wide bandgap perovskite solar cells using fullerene blend electron transport interlayers †

EES Solar Royal Society of Chemistry (2025)

Authors:

Josephine L Surel, Pietro Caprioglio, Joel A Smith, Akash Dasgupta, Francesco Furlan, Charlie Henderson, Fengning Yang, Benjamin M Gallant, Seongrok Seo, Alexander Knight, Manuel Kober-Czerny, Joel Luke, David P McMeekin, Alexander I Tartakovskii, Ji-Seon Kim, Nicola Gasparini, Henry J Snaith

Abstract:

Performance losses in positive–intrinsic–negative architecture perovskite solar cells are dominated by nonradiative recombination at the perovskite/organic electron transport layer interface, which is particularly problematic for wider bandgap perovskites. Large endeavours have been dedicated to the replacement of fullerenes, which are the most commonly used class of electron transport layers, with limited success thus far. In this work, we demonstrate blending the fullerene derivatives [6,6]-phenyl C61 butyric acid methyl ester (PCBM) and indene-C60 bis-adduct (ICBA) as a thin interlayer between 1.77 eV bandgap perovskite and an evaporated C60 layer. By tuning the fullerene blend to a trace 2% by mass of PCBM in ICBA, we remarkably form an interlayer which features improved energetic alignment with the perovskite and the PCBM : ICBA fullerene mixture, together with a stronger molecular ordering and an order of magnitude higher electron mobility than either neat PCBM or ICBA. Additional molecular surface passivation approaches are found to be beneficial in conjunction with this approach, resulting in devices with 19.5% steady state efficiency, a fill factor of 0.85 and an open-circuit voltage of 1.33 V, which is within 10% of the radiative limit of the latter two device parameters for this bandgap. This work highlights the complex nonlinear energetic behaviour with fullerene mixing, and how control of the energetics and crystallinity of these materials is crucial in overcoming the detrimental recombination losses that have historically limited perovskite solar cells.

Approaching the radiative limits for wide bandgap perovskite solar cells using fullerene blend electron transport interlayers

University of Oxford (2025)

Authors:

Josephine Surel, Pietro Caprioglio, Joel Smith, Akash Dasgupta, Francesco Furlan, Charlie Henderson, Fengning Yang, Benjamin Gallant, Seongrok Seo, Alexander Knight, Manuel Kober-Czerny, Joel Luke, David McMeekin, Alexander Tartakovskii, Ji-Seon Kim, Nicola Gasparini, Henry Snaith

Abstract:

Data was acquired according to the methods section of this publication. Data files require Origin to process.

Can we make color switchable photovoltaic windows?

Chemical Science Royal Society of Chemistry 14:29 (2023) 7828-7841

Authors:

Josephine L Surel, Jeffrey A Christians

Abstract:

Color-changing PV windows could save energy and generate electricity. A building with such windows is shown changing from tinted PV to transparent phase. This work reviews recent strategies and provides a future outlook for this technology.

Switchable Color Semiconductors: Methylamine Intercalation, Deintercalation, and Retention in Two-Dimensional Halide Perovskites

ACS Applied Energy Materials American Chemical Society (ACS) 5:10 (2022) 12029-12038

Authors:

Josephine L Surel, Elizabeth V Cutlip, James R Mandeville, Jeffrey A Christians