Electrochemically Assisted Growth of CsPbBr3-Based Solar Cells Without Selective Contacts

Ramirez, Daniel; Riveros, gonzalo; Diaz, Patricia; Verdugo, Javier; Nunez, Gerard; Lizama, Susy; Lazo, Pamela; Dalchiele, Enrique A; Gau, Daniel L.; Marotti, Ricardo E.; Anta, Juan A.; Contreras-Bernal, Lidia; Riquelme, Antonio; Idigoras, Jesus

Abstract

In this work we report a simple and cost-effective CsPbBr3-based solar cell without ordinary selective contacts. To do so we follow an electrochemical approach consisting of three successive steps: (1) electrodeposition of PbO(2)directly on top of FTO substrates, (2) heterogeneous phase reaction with gaseous HBr and (3) spin-coating of methanolic CsBr solutions followed by annealing. This method is more adequate for large-scale environmentally friendly production as it reduces chemical waste, particularly toxic lead. The resulting films were structurally and optically characterized showing good coverage of the FTO substrates, absence of defects such as pinholes and orthorhombic structure. Photovoltaic and impedance characterization was carried out by pressing a carbon coated metal spring onto the CsPbBr(3)film until obtaining maximized open-circuit potential (V-oc) and short-circuit photocurrent density (j(sc)) under simulated sunlight. The stabilized current at fixed voltage (SCFV) technique gave a maximum PCE value of 2.70 % close to devices with similar configuration. Impedance measurements demonstrated analogous behavior to that of state-of-art CsPbBr(3)based solar cells, comprising a recombination arc at mid-high frequencies, geometrical capacitance and ideality factors closed to 2, typical of SRH recombination in the perovskite bulk.

Más información

Título según WOS: Electrochemically Assisted Growth of CsPbBr3-Based Solar Cells Without Selective Contacts
Título de la Revista: CHEMELECTROCHEM
Volumen: 7
Número: 19
Editorial: WILEY-V C H VERLAG GMBH
Fecha de publicación: 2020
Página de inicio: 3961
Página final: 3968
DOI:

10.1002/CELC.202000782

Notas: ISI