Prof Henry Snaith FRS

Solubilization of carbon nanotubes with ethylene-vinyl acetate for solution-processed conductive films and charge extraction layers in perovskite solar cells

ACS Applied Materials and Interfaces American Chemical Society 11:1 (2018) 1185-1191

Authors:

Giulio Mazzotta, Markus Dollmann, Habisreutinger, Greyson Christoforo, Zhiping Wang, Henry Snaith, Moritz Riede, Robin Nicholas

Abstract:

Carbon nanotube (CNT) solubilization via non-covalent wrapping of conjugated semiconducting polymers is a common technique used to produce stable dispersions for depositing CNTs from solution. Here, we report the use of a non-conjugated insulating polymer, ethylene vinyl acetate (EVA), to disperse multi- and single-walled CNTs (MWCNT and SWCNT) in organic solvents. We demonstrate that despite the insulating nature of the EVA, we can produce semitransparent films with conductivities of up to 34 S/cm. We show, using photoluminescence spectroscopy, that the EVA strongly binds to individual CNTs, thus making them soluble, preventing aggregation, and facilitating the deposition of high-quality films. To prove the good electronic properties of this composite, we have fabricated perovskite solar cells using EVA/SWCNTs and EVA/MWCNTs as selective hole contact, obtaining power conversion efficiencies of up to 17.1%, demonstrating that the insulating polymer does not prevent the charge transfer from the active material to the CNTs.

Elucidating the long-range charge carrier mobility in metal halide perovskite thin films

(2018)

Authors:

Jongchul Lim, Maximilian T Hoerantner, Nobuya Sakai, James M Ball, Suhas Mahesh, Nakita K Noel, Yen-Hung Lin, Jay B Patel, David P McMeekin, Michael B Johnston, Bernard Wenger, Henry J Snaith

Elucidating the long-range charge carrier mobility in metal halide perovskite thin films

Energy and Environmental Science Royal Society of Chemistry 12:1 (2018) 169-176

Authors:

Jongchul Lim, M Hoerantner, Nobuya Sakai, James M Ball, Suhas Mahesh, Nakita K Noel, Yen-Hung Lin, Jay B Patel, David P McMeekin, Michael B Johnston, Bernard Wenger, Henry J Snaith

Abstract:

Many optoelectronic properties have been reported for lead halide perovskite polycrystalline films. However, ambiguities in the evaluation of these properties remain, especially for long-range lateral charge transport, where ionic conduction can complicate interpretation of data. Here we demonstrate a new technique to measure the long-range charge carrier mobility in such materials. We combine quasi-steady-state photo-conductivity measurements (electrical probe) with photo-induced transmission and reflection measurements (optical probe) to simultaneously evaluate the conductivity and charge carrier density. With this knowledge we determine the lateral mobility to be ∼2 cm2 V−1 s−1 for CH3NH3PbI3 (MAPbI3) polycrystalline perovskite films prepared from the acetonitrile/methylamine solvent system. Furthermore, we present significant differences in long-range charge carrier mobilities, from 2.2 to 0.2 cm2 V−1 s−1, between films of contemporary perovskite compositions prepared via different fabrication processes, including solution and vapour phase deposition techniques. Arguably, our work provides the first accurate evaluation of the long-range lateral charge carrier mobility in lead halide perovskite films, with charge carrier density in the range typically achieved under photovoltaic operation.

Fractional deviations in precursor stoichiometry dictate the properties, performance and stability of perovskite photovoltaic devices.

Energy & environmental science 11:12 (2018) 3380-3391

Authors:

Paul Fassl, Vincent Lami, Alexandra Bausch, Zhiping Wang, Matthew T Klug, Henry J Snaith, Yana Vaynzof

Abstract:

The last five years have witnessed remarkable progress in the field of lead halide perovskite materials and devices. Examining the existing body of literature reveals staggering inconsistencies in the reported results among different research groups with a particularly wide spread in the photovoltaic performance and stability of devices. In this work we demonstrate that fractional, quite possibly unintentional, deviations in the precursor solution stoichiometry can cause significant changes in the properties of the perovskite layer as well as in the performance and stability of perovskite photovoltaic devices. We show that while the absorbance and morphology of the layers remain largely unaffected, the surface composition and energetics, crystallinity, emission efficiency, energetic disorder and storage stability are all very sensitive to the precise stoichiometry of the precursor solution. Our results elucidate the origin of the irreproducibility and inconsistencies of reported results among different groups as well as the wide spread in device performance even within individual studies. Finally, we propose a simple experimental method to identify the exact stoichiometry of the perovskite layer that researchers can employ to confirm their experiments are performed consistently without unintentional variations in precursor stoichiometry.

High-efficiency perovskite–polymer bulk heterostructure light-emitting diodes

Nature Photonics Springer Nature 12:12 (2018) 783-789

Authors:

Baodan Zhao, Sai Bai, Vincent Kim, Robin Lamboll, Ravichandran Shivanna, Florian Auras, Johannes M Richter, Le Yang, Linjie Dai, Mejd Alsari, Xiao-Jian She, Lusheng Liang, Jiangbin Zhang, Samuele Lilliu, Peng Gao, Henry J Snaith, Jianpu Wang, Neil C Greenham, Richard H Friend, Dawei Di