Prof Henry Snaith FRS

Nanoimprinted distributed feedback lasers of solution processed hybrid perovskites.

Optics express 24:21 (2016) 23677-23684

Authors:

Guy L Whitworth, Jonathan R Harwell, David N Miller, Gordon J Hedley, Wei Zhang, Henry J Snaith, Graham A Turnbull, Ifor DW Samuel

Abstract:

Hybrid perovskite materials have considerable potential for light emitting devices such as LEDs and lasers. We combine solution processed CH₃NH₃PbI₃ perovskite with UV nanoimprinted polymer gratings to fabricate distributed feedback (DFB) lasers. The lead acetate deposition route is shown to be an effective method for fabricating low-loss waveguides (loss coefficient ~6 cm-1) and highly compatible with the polymer grating substrates. The nanoimprinted perovskite exhibited single-mode band-edge lasing, confirmed by angle-dependent transmission measurements. Depending on the excitation pulse duration the lasing threshold shows a value of 110 μJ/cm2 under nanosecond pumping and 4 μJ/cm2 under femtosecond pumping. We demonstrate further that this laser has excellent stability with a lifetime of 10⁸ pulses.

Charge-carrier dynamics in 2D hybrid metal-halide perovskites

Nano letters American Chemical Society 16:11 (2016) 7001-7007

Authors:

Rebecca Milot, Rebecca J Sutton, Giles E Eperon, Amir Abbas Haghighirad, Josue Martinez Hardigree, L Miranda, Henry J Snaith, Michael B Johnston, Laura Herz

Abstract:

Hybrid metal halide perovskites are promising new materials for use in solar cells, however, their chemical stability in the presence of moisture remains a significant drawback. Quasi two-dimensional perovskites that incorporate hydrophobic organic interlayers offer improved resistance to degradation by moisture, currently still at the cost of overall cell efficiency. To elucidate the factors affecting the optoelectronic properties of these materials, we have investigated the charge transport properties and crystallographic orientation of mixed methylammonium (MA)/phenylethylammonium (PEA) lead iodide thin films as a function of MA:PEA and thus the thickness of the 'encapsulated' MA lead halide layers. We find that monomolecular charge-carrier recombination rates first decrease with increasing PEA fraction, most likely as a result of trap passivation, but then increase significantly as excitonic effects begin to dominate for thin confined layers. Bimolecular and Auger recombination rate constants are found to be sensitive to changes in electronic confinement, which alters the density of states for electronic transitions. We demonstrate that effective charge-carrier mobilities remain remarkably high (near 10 cm2/Vs) for intermediate PEA content and are enhanced for preferential orientation of the conducting lead-iodide layers along the probing electric field. The tradeoff between trap reduction, electronic confinement and layer orientation leads to calculated charge-carrier diffusion lengths reaching a maximum of 2.5 µm for intermediate PEA content (50%).

A low viscosity, low boiling point, clean solvent system for the rapid crystallisation of highly specular perovskite films

Energy and Environmental Science Royal Society of Chemistry 10:1 (2016) 145-152

Authors:

Nakita Noel, Severin N Habisreutinger, Bernard Wenger, Matthew T Klug, Maximilian T Hörantner, Michael B Johnston, Robin J Nicholas, David T Moore, Henry J Snaith

Abstract:

Perovskite-based photovoltaics have, in recent years, become poised to revolutionise the solar industry. While there have been many approaches taken to the deposition of this material, one-step spin-coating remains the simplest and most widely used method in research laboratories. Although spin-coating is not recognised as the ideal manufacturing methodology, it represents a starting point from which more scalable deposition methods, such as slot-dye coating or ink-jet printing can be developed. Here, we introduce a new, low-boiling point, low viscosity solvent system that enables rapid, room temperature crystallisation of methylammonium lead triiodide perovskite films, without the use of strongly coordinating aprotic solvents. Through the use of this solvent, we produce dense, pinhole free films with uniform coverage, high specularity, and enhanced optoelectronic properties. We fabricate devices and achieve stabilised power conversion efficiencies of over 18% for films which have been annealed at 100 °C, and over 17% for films which have been dried under vacuum and have undergone no thermal processing. This deposition technique allows uniform coating on substrate areas of up to 125 cm2, showing tremendous promise for the fabrication of large area, high efficiency, solution processed devices, and represents a critical step towards industrial upscaling and large area printing of perovskite solar cells.

Charge-carrier dynamics in hybrid metal halide perovskites (Conference Presentation)

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics (2016) 99230d-99230d-1

Authors:

Rebecca L Milot, Waqaas Rehman, Giles E Eperon, Henry J Snaith, Michael B Johnston, Laura M Herz

Photon recycling in Lead-Iodide Perovskite solar cells (Conference Presentation)

Proceedings of SPIE--the International Society for Optical Engineering SPIE, the international society for optics and photonics (2016) 99370i-99370i-1

Authors:

Luis Pazos, Monika Szummilo, Robin Lamboll, Johannes M Richter, Micaela Crespo-Quesada, Mojtaba Abdi-Jalebi, Harry J Beeson, Milan Vrucinic, Mejd Alsari, Henry J Snaith, Bruno Ehrler, Richard H Friend, Felix Deschler