N. Plugaru scite author profile

We monitored the evolution in time of pinhole-free structures based on FTO/TiO/CHNHPbICl layers, with and without spiro-OMeTAD and counter electrodes (Ag, Mo/Ag, and Au), aged at 24 °C in a dark nitrogen atmosphere. In the absence of electrodes, no degradation occurs. While devices with Au show only a 10% drop in power conversion efficiency, remaining stable after a further overheating at 70 °C, >90% is lost when using Ag, with the process being slower for Mo/Ag. We demonstrate that iodine is dislocated by the electric field between the electrodes, and this is an intrinsic cause for electromigration of I from the perovskite until it reaches the anode. The iodine exhaustion in the perovskite layer is produced when using Ag electrodes, and AgI is formed. We hypothesize that in the presence of Au the iodine migration is limited due to the buildup of I negative space charge accumulated at the perovskite-OMeTAD interface.

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Band alignment and charge transfer in rutile-TiO₂/CH₃NH₃PbI_3−xCl_x interfaces

Nemneş

Goehry

Mitran

et al. 2015

Phys. Chem. Chem. Phys.

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Rutile-TiO2/hybrid halide perovskite CH3NH3PbI3-xClx interfaces are investigated by ab initio density functional theory calculations. The role of chlorine in achieving enhanced solar cell power conversion efficiencies is in the focus of recent studies, which point to increased carrier mobilities, reduced recombination rates, a driven morphology evolution of the perovskite layer and improved carrier transport across the interface. As it was recently established that chlorine is preferentially localized in the vicinity of the interface and not in the bulk of the perovskite layer, we analyze the changes introduced in the electronic properties by varying the chlorine concentration near the interface. In particular, we discuss the effects introduced in the electronic band structure and show the role of chlorine in the enhanced electron injection into the rutile-TiO2 layer. Taking into account these implications, we discuss the conditions for optimizing the solar cell efficiency in terms of interfacial chlorine concentration.

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Magnetic behaviour of Rco4b compounds where R ≡ Ce, Tb, Dy and Ho

Burzo

Plugaru

Creanga

et al. 1989

Journal of the Less Common Metals

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ChemInform Abstract: Magnetic Behavior of LnCo4B Compounds with Ln: Ce, Tb, Dy, and Ho

Burzo¹,

Plugaru

Creanga

et al. 1990

ChemInform

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Effect of nitrogenation on the magnetic properties of Y2Fe17−xMx compounds, with M = Al, Ga or Si

Văleanu

Plugaru

Burzo

1994

Solid State Communications

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N. Plugaru

Iodine Migration and Degradation of Perovskite Solar Cells Enhanced by Metallic Electrodes

Band alignment and charge transfer in rutile-TiO₂/CH₃NH₃PbI_3−xCl_x interfaces

Magnetic behaviour of Rco4b compounds where R ≡ Ce, Tb, Dy and Ho

ChemInform Abstract: Magnetic Behavior of LnCo4B Compounds with Ln: Ce, Tb, Dy, and Ho

Effect of nitrogenation on the magnetic properties of Y2Fe17−xMx compounds, with M = Al, Ga or Si

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N. Plugaru

Iodine Migration and Degradation of Perovskite Solar Cells Enhanced by Metallic Electrodes

Band alignment and charge transfer in rutile-TiO2/CH3NH3PbI3−xClx interfaces

Magnetic behaviour of Rco4b compounds where R ≡ Ce, Tb, Dy and Ho

ChemInform Abstract: Magnetic Behavior of LnCo4B Compounds with Ln: Ce, Tb, Dy, and Ho

Effect of nitrogenation on the magnetic properties of Y2Fe17−xMx compounds, with M = Al, Ga or Si

Contact Info

Product

Resources

About

Band alignment and charge transfer in rutile-TiO₂/CH₃NH₃PbI_3−xCl_x interfaces