Photovoltaic & Optoelectronic Device Group

Performance and stability analysis of all-perovskite tandem photovoltaics in light-driven electrochemical water splitting

Nature Communications Springer Nature 16:1 (2025) 174

Authors:

Junke Wang, Bruno Branco, Willemijn HM Remmerswaal, Shuaifeng Hu, Nick RM Schipper, Valerio Zardetto, Laura Bellini, Nicolas Daub, Martijn M Wienk, Atsushi Wakamiya, Henry J Snaith, René AJ Janssen

Abstract:

All-perovskite tandem photovoltaics are a potentially cost-effective technology to power chemical fuel production, such as green hydrogen. However, their application is limited by deficits in open-circuit voltage and, more challengingly, poor operational stability of the photovoltaic cell. Here we report a laboratory-scale solar-assisted water-splitting system using an electrochemical flow cell and an all-perovskite tandem solar cell. We begin by treating the perovskite surface with a propane-1,3-diammonium iodide solution that reduces interface non-radiative recombination losses and achieves an open-circuit voltage above 90% of the detailed-balance limit for single-junction solar cells between the bandgap of 1.6–1.8 eV. Specifically, a high open-circuit voltage of 1.35 V and maximum power conversion efficiency of 19.9% are achieved at a 1.77 eV bandgap. This enables monolithic all-perovskite tandem solar cells with a 26.0% power conversion efficiency at 1 cm² area and a pioneering photovoltaic-electrochemical system with a maximum solar-to-hydrogen efficiency of 17.8%. The system retains over 60% of its peak performance after operating for more than 180 h. We find that the performance loss is mainly due to the degradation of the photovoltaic component. We observe severe charge collection losses in the narrow-bandgap sub-cell that can be attributed to the interface degradation between the narrow-bandgap perovskite and the hole-transporting layer. Our study suggests that developing chemically stable absorbers and contact layers is critical for the applications of all-perovskite tandem photovoltaics.

Performance and stability analysis of all-perovskite tandem photovoltaics in light-driven electrochemical water splitting

University of Oxford (2025)

Authors:

Junke Wang, Bruno Branco, Willemijn HM Remmerswaal, Shuaifeng Hu, Nick RM Schipper, Valerio Zardetto, Laura Bellini, Nicolas Daub, Martijn M Wienk, Atsushi Wakamiya, Henry J Snaith, René AJ Janssen

Abstract:

January 4, 2025

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.

Data in support of Impact of precursor dosing on the surface passivation of AZO/AlOx stacks formed using atomic layer deposition

University of Oxford (2025)

Authors:

Yan Wang, Theodore Hobson, Jack Swallow, Shona McNab, John O'Sullivan, Anastasia Soeriyadi, Xinya Niu, Rebekah Fraser, Akash Dasgupta, Soumyajit Maitra, Pietro Altermatt, Robert Weatherup, Matthew Wright, Ruy Bonilla

Abstract:

All data reported in publication: Impact of precursor dosing on the surface passivation of AZO/AlOx stacks formed using atomic layer deposition

Dopant-induced interactions in spiro-OMeTAD: Advancing hole transport for perovskite solar cells

Materials Science and Engineering R Reports Elsevier 162 (2025) 100875

Authors:

Yueyao Dong, Florine M Rombach, Ganghong Min, Henry J Snaith, Chieh-Ting Lin, Saif A Haque, Thomas J Macdonald