Prof Henry Snaith FRS

Enhanced optoelectronic quality of perovskite thin films with hypophosphorous acid for planar heterojunction solar cells

Nature Communications Nature Publishing Group 6 (2015) 10030

Authors:

Wei Zhang, Sandeep Pathak, Nobuya Sakai, Thomas Stergiopoulos, Pabitra K Nayak, Nakita K Noel, Amir Abbas Haghighirad, Victor M Burlakov, Dane W deQuilettes, Aditya Sadhanala, Wenzhe Li, Liduo Wang, David S Ginger, Richard H Friend, Henry J Snaith

Abstract:

Solution-processed metal halide perovskite semiconductors, such as CH3NH3PbI3, have exhibited remarkable performance in solar cells, despite having non-negligible density of defect states. A likely candidate is halide vacancies within the perovskite crystals, or the presence of metallic lead, both generated due to the imbalanced I/Pb stoichiometry which could evolve during crystallization. Herein, we show that the addition of hypophosphorous acid (HPA) in the precursor solution can significantly improve the film quality, both electronically and topologically, and enhance the photoluminescence intensity, which leads to more efficient and reproducible photovoltaic devices. We demonstrate that the HPA can reduce the oxidized I2 back into I−, and our results indicate that this facilitates an improved stoichiometry in the perovskite crystal and a reduced density of metallic lead.

Perovskite photovoltachromic cells for building integration

Energy and Environmental Science Royal Society of Chemistry 8:5 (2015) 1578-1584

Authors:

Alessandro Cannavale, Giles Eperon, Pierluigi Cossari, Antonio Abate, Henry J Snaith, Giuseppe Gigli

Abstract:

Photovoltachromic devices combine photovoltaic and electrochromic behaviours to enable adjustable transparency glazing, where the photovoltaic component supplies the power to drive the coloration. Such stand-alone, self-powered devices are of commercial interest for integration into windows and surfaces of buildings and vehicles. Here, we report for the first time a perovskite-based photovoltachromic device with self-adaptive transparency. This multifunctional device is capable of producing electrical power by solar energy conversion as well as undergoing a chromic transition from neutral-color semi-transparent to dark blue-tinted when irradiated with solar light, without any additional external bias. The combination of semi-transparent perovskite photovoltaic and solid-state electrochromic cells enables fully solid-state photovoltachromic devices with 26% (or 16%) average visible transmittance and 3.7% (or 5.5%) maximum light power conversion efficiency. Upon activating the self-tinting, the average visible transmittance drops to 8.4% (or 5.5%). These results represent a significant step towards the commercialization of photovoltachromic building envelopes.

Direct observation of an inhomogeneous chlorine distribution in CH 3 NH 3 PbI 3−x Cl x layers: surface depletion and interface enrichment

Energy & Environmental Science Royal Society of Chemistry (RSC) 8:5 (2015) 1609-1615

Authors:

David E Starr, Golnaz Sadoughi, Evelyn Handick, Regan G Wilks, Jan H Alsmeier, Leonard Köhler, Mihaela Gorgoi, Henry J Snaith, Marcus Bär

Highly efficient, flexible, indium-free perovskite solar cells employing metallic substrates

Journal of Materials Chemistry A Royal Society of Chemistry (RSC) 3:17 (2015) 9141-9145

Authors:

Joel Troughton, Daniel Bryant, Konrad Wojciechowski, Matthew J Carnie, Henry Snaith, David A Worsley, Trystan M Watson

Heterojunction Modification for Highly Efficient Organic–Inorganic Perovskite Solar Cells

ACS Nano American Chemical Society (ACS) 8:12 (2014) 12701-12709

Authors:

Konrad Wojciechowski, Samuel D Stranks, Antonio Abate, Golnaz Sadoughi, Aditya Sadhanala, Nikos Kopidakis, Garry Rumbles, Chang-Zhi Li, Richard H Friend, Alex K-Y Jen, Henry J Snaith