Prof Henry Snaith FRS

Controlling nucleation and growth of metal halide perovskite thin films for high-Efficiency perovskite solar cells

Small Wiley 13:14 (2017) 1-8

Authors:

Nobuya Sakai, Zhiping Wang, Victor Burlakov, Jongchul Lim, David McMeekin, S Pathak, Henry Snaith

Abstract:

Metal halide perovskite thin films can be crystallized via a broad range of solution-based routes. However, the quality of the final films is strongly dependent upon small changes in solution composition and processing parameters. Here, this study demonstrates that a fractional substitution of PbCl2 with PbI2 in the 3CH3 NH3 I:PbCl2 mixed-halide starting solution has a profound influence upon the ensuing thin-film crystallization. The presence of PbI2 in the precursor induces a uniform distribution of regular quadrilateral-shaped CH3 NH3 PbI3 perovskite crystals in as-cast films, which subsequently grow to form pinhole-free perovskite films with highly crystalline domains. With this new formulation of 3CH3 NH3 I:0.98PbCl2 :0.02PbI2 , this study achieves a 19.1% current-voltage measured power conversion efficiency and a 17.2% stabilized power output in regular planar heterojunction solar cells.

Microseconds, milliseconds and seconds: deconvoluting the dynamic behaviour of planar perovskite solar cells.

Physical chemistry chemical physics : PCCP 19:8 (2017) 5959-5970

Authors:

Adam Pockett, Giles E Eperon, Nobuya Sakai, Henry J Snaith, Laurence M Peter, Petra J Cameron

Abstract:

Perovskite solar cells (PSC) are shown to behave as coupled ionic-electronic conductors with strong evidence that the ionic environment moderates both the rate of electron-hole recombination and the band offsets in planar PSC. Numerous models have been presented to explain the behaviour of perovskite solar cells, but to date no single model has emerged that can explain both the frequency and time dependent response of the devices. Here we present a straightforward coupled ionic-electronic model that can be used to explain the large amplitude transient behaviour and the impedance response of PSC.

Near-neutral-colored semitransparent perovskite films using a combination of colloidal self-assembly and plasma etching

Solar Energy Materials and Solar Cells Elsevier 160 (2017) 193-202

Authors:

Lijing Zhang, Maximilian T Hörantner, Wei Zhang, Qingfeng Yan, Henry J Snaith

Unraveling the exciton binding energy and the dielectric constant in single crystal methylammonium lead tri-iodide perovskite

(2017)

Authors:

Zhuo Yang, Alessandro Surrente, Krzysztof Galkowski, Nicolas Bruyant, Duncan K Maude, Amir Abbas Haghighirad, Henry J Snaith, Paulina Plochocka, Robin J Nicholas

Carbazole-based enamine: Low-cost and efficient hole transporting material for perovskite solar cells

Nano Energy Elsevier (2017)

Authors:

M Daskeviciene, S Paek, Zhiping Wang, T Malinauskas, G Jokubauskaite, K Rakstys, KT Cho, A Magomedov, V Jankauskas, S Ahmad, Henry J Snaith, V Getautis, MK Nazeeruddin

Abstract:

A simple carbazole-based conjugated enamine V950 was synthesized, fully characterized and incorporated into a perovskite solar cell, which displayed high power conversion efficiency close to 18%. The investigated hole transporting material was synthesized via an extremely simple route (one step, no expensive catalysts, no column chromatography or sublimation purification) from commercially available and relatively inexpensive starting reagents, resulting in more than one order of magnitude lower cost of the final product compared to the commercial 2,2′,7,7′-tetrakis(N,N-di-p-methoxy-phenylamine)-9-9′-spirobifluorene (spiro-OMeTAD). This material promises to be a viable p-type organic charge conductor to be employed in the scale-up and manufacturing of perovskite solar modules.