Mikael Ottosson scite author profile

Lead halogen perovskites, and particularly methylammonium lead iodine, CH3NH3PbI3, have recently attracted considerable interest as alternative solar cell materials, and record solar cell efficiencies have now surpassed 20%. Concerns have, however, been raised about the thermal stability of methylammonium lead iodine, and a phase transformation from a tetragonal to a cubic phase has been reported at elevated temperature. Here, this phase transition has been investigated in detail using temperature-dependent X-ray diffraction measurements. The phase transformation is pinpointed to 54 °C, which is well within the normal operating range of a typical solar cell. The cell parameters were extracted as a function of the temperature, from which the thermal expansion coefficient was calculated. The latter was found to be rather high (αv = 1.57 × 10(-4) K(-1)) for both the tetragonal and cubic phases. This is 6 times higher than the thermal expansion coefficient for soda lime glass and CIGS and 11 times larger than that of CdTe. This could potentially be of importance for the mechanical stability of perovskite solar cells in the temperature cycling experienced under normal day-night operation. The experimental knowledge of the thermal expansion coefficients and precise determination of the cell parameters can potentially also be valuable while conducting density functional theory simulations on these systems in order to deliver more accurate band structure calculations.

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Atomic layer deposition of BN thin films

Mårlid

Ottosson

Pettersson

et al. 2002

Thin Solid Films

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Growth of SnO2 thin films by atomic layer deposition and chemical vapour deposition: A comparative study

Sundqvist

Ottosson

et al. 2006

Thin Solid Films

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Atomic Layer Deposition of NiO by the Ni(thd)₂/H₂O Precursor Combination

Lindahl

Ottosson

Carlsson

2009

Chemical Vapor Deposition

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Polycrystalline nickel oxide is deposited on SiO 2 substrates by alternating pulses of bis(2,2,6,6-tetramethylheptane-3,5-dionato)nickel(II) (Ni(thd) 2 ) and H 2 O. The deposition process shows atomic layer deposition (ALD) characteristics with respect to the saturation behavior of the two precursors at deposition temperatures up to 275 8C. The growth of nickel oxide is shown to be highly dependent on surface hydroxide groups, and a large excess of H 2 O is required to achieve saturation. Throughout the deposition temperature range the amount of carbon in the film, originating from the metal precursor ligand, is in the range 1-2%. Above 275 8C ALD growth behavior is lost in favor of thermal decomposition of the metal precursor. The initial nucleation process is studied by atomic force microscopy (AFM) and reveals nucleation of well-separated grains which coalesce to a continuous film after about 250 ALD cycles.

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Microstructure characterisation of ALD-grown epitaxial SnO2 thin films

Sundqvist

Ottosson

et al. 2004

Journal of Crystal Growth

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Mikael Ottosson

Determination of Thermal Expansion Coefficients and Locating the Temperature-Induced Phase Transition in Methylammonium Lead Perovskites Using X-ray Diffraction

Atomic layer deposition of BN thin films

Growth of SnO2 thin films by atomic layer deposition and chemical vapour deposition: A comparative study

Atomic Layer Deposition of NiO by the Ni(thd)₂/H₂O Precursor Combination

Microstructure characterisation of ALD-grown epitaxial SnO2 thin films

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About

Mikael Ottosson

Determination of Thermal Expansion Coefficients and Locating the Temperature-Induced Phase Transition in Methylammonium Lead Perovskites Using X-ray Diffraction

Atomic layer deposition of BN thin films

Growth of SnO2 thin films by atomic layer deposition and chemical vapour deposition: A comparative study

Atomic Layer Deposition of NiO by the Ni(thd)2/H2O Precursor Combination

Microstructure characterisation of ALD-grown epitaxial SnO2 thin films

Contact Info

Product

Resources

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Atomic Layer Deposition of NiO by the Ni(thd)₂/H₂O Precursor Combination