Nanocluster aggregation sources based on magnetron-sputtering represent precise and versatile means to deposit a controlled quantity of metal nanoparticles at selected interfaces. In this work, we exploit this methodology to produce Ag/MgO nanoparticles (NPs) and deposit them on a glass/FTO/TiO2 substrate, which constitutes the mesoscopic front electrode of a monolithic perovskite-based solar cell (PSC). Herein, the Ag NP growth through magnetron sputtering and gas aggregation, subsequently covered with MgO ultrathin layers, is fully characterized in terms of structural and morphological properties while thermal stability and endurance against air-induced oxidationare demonstrated in accordance with PSC manufacturing processes. Finally, once the NPcoverage is optimized, the Ag/MgO engineered PSCs demonstrate an overall increase of 5% in termsof device power conversion efficiencies (up to 17.8%).
Ag/MgO Nanoparticles via Gas Aggregation Nanocluster Source for Perovskite Solar Cell Engineering
Bertoni G.;Paolicelli G.;Pasquali L.;Di Carlo A.;De Renzi V.;D'Addato
2021
Abstract
Nanocluster aggregation sources based on magnetron-sputtering represent precise and versatile means to deposit a controlled quantity of metal nanoparticles at selected interfaces. In this work, we exploit this methodology to produce Ag/MgO nanoparticles (NPs) and deposit them on a glass/FTO/TiO2 substrate, which constitutes the mesoscopic front electrode of a monolithic perovskite-based solar cell (PSC). Herein, the Ag NP growth through magnetron sputtering and gas aggregation, subsequently covered with MgO ultrathin layers, is fully characterized in terms of structural and morphological properties while thermal stability and endurance against air-induced oxidationare demonstrated in accordance with PSC manufacturing processes. Finally, once the NPcoverage is optimized, the Ag/MgO engineered PSCs demonstrate an overall increase of 5% in termsof device power conversion efficiencies (up to 17.8%).| File | Dimensione | Formato | |
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