Photovoltaic & Optoelectronic Device Group

Structure engineering of hierarchical layered perovskite interface for efficient and stable wide bandgap photovoltaics

Nano Energy Elsevier 75 (2020) 104917

Authors:

Tongle Bu, Jing Li, Qingdong Lin, David P McMeekin, Jingsong Sun, Mingchao Wang, Weijian Chen, Xiaoming Wen, Wenxin Mao, Christopher R McNeill, Wenchao Huang, Xiao-Li Zhang, Jie Zhong, Yi-Bing Cheng, Udo Bach, Fuzhi Huang

Charge‐carrier trapping and radiative recombination in metal halide perovskite semiconductors

Advanced Functional Materials Wiley 30:42 (2020) 2004312

Authors:

Michael J Trimpl, Adam D Wright, Kelly Schutt, Leonardo RV Buizza, Zhiping Wang, Michael B Johnston, Henry Snaith, Peter Müller‐Buschbaum, Laura M Herz

Abstract:

Trap‐related charge‐carrier recombination fundamentally limits the performance of perovskite solar cells and other optoelectronic devices. While improved fabrication and passivation techniques have reduced trap densities, the properties of trap states and their impact on the charge‐carrier dynamics in metal‐halide perovskites are still under debate. Here, a unified model is presented of the radiative and nonradiative recombination channels in a mixed formamidinium‐cesium lead iodide perovskite, including charge‐carrier trapping, de‐trapping and accumulation, as well as higher‐order recombination mechanisms. A fast initial photoluminescence (PL) decay component observed after pulsed photogeneration is demonstrated to result from rapid localization of free charge carriers in unoccupied trap states, which may be followed by de‐trapping, or nonradiative recombination with free carriers of opposite charge. Such initial decay components are shown to be highly sensitive to remnant charge carriers that accumulate in traps under pulsed‐laser excitation, with partial trap occupation masking the trap density actually present in the material. Finally, such modelling reveals a change in trap density at the phase transition, and disentangles the radiative and nonradiative charge recombination channels present in FA0.95Cs0.05PbI3, accurately predicting the experimentally recorded PL efficiencies between 50 and 295 K, and demonstrating that bimolecular recombination is a fully radiative process.

A Self‐Assembled Small‐Molecule‐Based Hole‐Transporting Material for Inverted Perovskite Solar Cells

Chemistry - A European Journal Wiley 26:45 (2020) 10276-10282

Authors:

Miriam Más‐Montoya, Paula Gómez, David Curiel, Ivan da Silva, Junke Wang, René AJ Janssen

Vacancy-Ordered Double Perovskite Cs2TeI6 Thin Films for Optoelectronics

Chemistry of Materials American Chemical Society (ACS) 32:15 (2020) 6676-6684

Authors:

Isabel Vázquez-Fernández, Silvia Mariotti, Oliver S Hutter, Max Birkett, Tim D Veal, Theodore DC Hobson, Laurie J Phillips, Lefteris Danos, Pabitra K Nayak, Henry J Snaith, Wei Xie, Matthew P Sherburne, Mark Asta, Ken Durose

A phosphine oxide route to formamidinium lead tribromide nanoparticles

Chemistry of Materials American Chemical Society 32:17 (2020) 7172-7180

Authors:

Olivia J Ashton, Ashley R Marshall, Jonathan H Warby, Bernard Wenger, Henry J Snaith

Abstract:

We present the synthesis of formamidinium lead tribromide (FAPbBr3) perovskite nanocrystals through a phosphine oxide route, where in comparison to more traditional syntheses oleylamine is replaced with trioctylphosphine oxide (TOPO). This route has previously been shown to be successful for the inorganic cesium lead tribromide perovskite nanocrystals. We examine the interactions between the precursors via nuclear magnetic resonance spectroscopy (NMR). We confirm the existence of an interaction between FA-oleate and TOPO and use this to guide the optimization of our synthesis. When the reaction is conducted at room temperature, we observe the formation of nanoparticles with high photoluminescence quantum yield (PLQY, ∼70%) at 2.39 eV (518 nm) with little ripening or size defocusing over time. Although we obtain narrow emission peaks, the crystals are irregular in shape—a testament to the impact of the FA-oleate:TOPO interaction. Despite a drop in PLQY in the washed solutions, films made maintain a high PLQY of ∼50% at 2.33 eV (532 nm), which is fortuitously the ideal wavelength for the green emission channel in displays, and we demonstrate 532 nm electroluminescence in light-emitting diodes with an EQE of 3.7%.