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Unraveling the Charge Transport Mechanism in Mechanochemically Processed Hybrid Perovskite Solar Cell

Priyabrata Sadhukhan, Dibyendu Ghosh, Payal Sengupta, Sayan Bhattacharyya, Sachindranath Das

2021Langmuir22 citationsDOI

Abstract

The long-term operation of organic–inorganic hybrid perovskite solar cells is hampered by the microscopic strain introduced by the multiple thermal cycles during the synthesis of the material via a solution process route. This setback can be eliminated by a room temperature synthesis scheme. In this work, a mechanochemical synthesis technique at room temperature is employed to process CH3NH3PbI2Br films for fabricating perovskite solar cell devices. The solar cell device has produced a 957 mV Voc, a 16.92 mA/cm2 short circuit current density, and a 10.5% efficiency. These values are higher than the published values on mechanochemically synthesized CH3NH3PbI3. The charge transport properties of the devices are studied using DC conductivity and AC impedance spectroscopy, which show a multichannel transport mechanism having both ionic and electronic contributions. A much smaller defect density in the mechanochemically synthesized hybrid perovskite material is confirmed. A polarization assisted recombination mechanism is observed to have a dominant effect on the overall charge transport mechanism. However, no obvious grain boundary and intralayer lattice defect related responses are found in the perovskite layer. Interfacial charge transport and recombination are found to show major effects on both the temperature dependent and illumination dependent impedance spectra.

Topics & Concepts

Perovskite (structure)Grain boundaryDielectric spectroscopyMaterials sciencePerovskite solar cellSolar cellChemical physicsSpace chargeChemical engineeringOptoelectronicsNanotechnologyChemistryComposite materialElectrodePhysical chemistryElectrochemistryElectronEngineeringPhysicsMicrostructureQuantum mechanicsPerovskite Materials and ApplicationsConducting polymers and applicationsSolid-state spectroscopy and crystallography