Prof Henry Snaith FRS

Aligned and Graded Type‐II Ruddlesden–Popper Perovskite Films for Efficient Solar Cells

Advanced Energy Materials Wiley 8:21 (2018)

Authors:

Jian Qing, Xiao‐Ke Liu, Mingjie Li, Feng Liu, Zhongcheng Yuan, Elizaveta Tiukalova, Zhibo Yan, Martial Duchamp, Shi Chen, Yuming Wang, Sai Bai, Jun‐Ming Liu, Henry J Snaith, Chun‐Sing Lee, Tze Chien Sum, Feng Gao

Surface modified fullerene electron transport layers for stable and reproducible flexible perovskite solar cells

Nano Energy Elsevier 49 (2018) 324-332

Authors:

Seulki Song, Rebecca Hill, Kyoungwon Choi, Konrad Wojciechowski, Stephen Barlow, Johannes Leisen, Henry J Snaith, Seth R Marder, Taiho Park

Enhanced photovoltage for inverted planar heterojunction perovskite solar cells

Science American Association for the Advancement of Science 360:6396 (2018) 1442-1446

Authors:

D Luo, W Yang, Zhiping Wang, A Sadhanala, Q Hu, R Su, R Shivanna, GF Trindade, JF Watts, Z Xu, T Liu, K Chen, F Ye, P Wu, L Zhao, J Wu, Y Tu, Y Zhang, X Yang, W Zhang, RH Friend, Q Gong, HJ Snaith, R Zhu

Abstract:

The highest power conversion efficiencies (PCEs) reported for perovskite solar cells (PSCs) with inverted planar structures are still inferior to those of PSCs with regular structures, mainly because of lower open-circuit voltages (Voc). Here we report a strategy to reduce nonradiative recombination for the inverted devices, based on a simple solution-processed secondary growth technique. This approach produces a wider bandgap top layer and a more n-type perovskite film, which mitigates nonradiative recombination, leading to an increase in Voc by up to 100 millivolts. We achieved a high Voc of 1.21 volts without sacrificing photocurrent, corresponding to a voltage deficit of 0.41 volts at a bandgap of 1.62 electron volts. This improvement led to a stabilized power output approaching 21% at the maximum power point.

Cubic or orthorhombic? Revealing the crystal structure of metastable black-phase CsPbI3 by theory and experiment

ACS Energy Letters American Chemical Society 3 (2018) 787-1794

Authors:

Rebecca Sutton, Marina Filip, A-A Haghighirad, Nobuya Sakai, B Wenger, Feliciano Giustino, Henry Snaith

Abstract:

Room-temperature films of black-phase caesium lead iodide (CsPbI3) are widely thought to be trapped in a cubic perovskite polymorph. Here, we challenge this assumption. We present structural refinement of room temperature black-phase CsPbI3 in an orthorhombic polymorph. We demonstrate that this polymorph is adopted by both powders and thin-films of black-phase CsPbI3, fabricated either by high- or low-temperature processes. We perform electronic band structure calculations for the orthorhombic polymorph and find agreement with experimental data and close similarities with orthorhombic methylammonium lead iodide. We investigate the structural transitions and thermodynamic stability of the various polymorphs of CsPbI3, and show that the orthorhombic polymorph is the most stable among its other perovskite polymorphs, but it remains less stable than the yellow non-perovskite polymorph.

Correction to “Exciton-Dominated Core-Level Absorption Spectra of Hybrid Organic–Inorganic Lead Halide Perovskites”

The Journal of Physical Chemistry Letters American Chemical Society (ACS) 9:12 (2018) 3193-3193

Authors:

Christian Vorwerk, Claudia Hartmann, Caterina Cocchi, Golnaz Sadoughi, Severin N Habisreutinger, Roberto Félix, Regan G Wilks, Henry J Snaith, Marcus Bär, Claudia Draxl