Synthesizing and formulating metal oxide nanoparticle inks for perovskite solar cells
Chemical Communications, 2023•pubs.rsc.org
The perovskite solar cell has commercial potential due to the low-cost of materials and
manufacturing processes with cell efficiencies on par with traditional technologies.
Nanomaterials have many properties that make them attractive for the perovskite devices,
including low-cost inks, low temperature processing, stable material properties and good
charge transport. In this feature article, the use of nanomaterials in the hole transport and
electron transport layers are reviewed. Specifically, SnO2 and NiOx are the leading …
manufacturing processes with cell efficiencies on par with traditional technologies.
Nanomaterials have many properties that make them attractive for the perovskite devices,
including low-cost inks, low temperature processing, stable material properties and good
charge transport. In this feature article, the use of nanomaterials in the hole transport and
electron transport layers are reviewed. Specifically, SnO2 and NiOx are the leading …
The perovskite solar cell has commercial potential due to the low-cost of materials and manufacturing processes with cell efficiencies on par with traditional technologies. Nanomaterials have many properties that make them attractive for the perovskite devices, including low-cost inks, low temperature processing, stable material properties and good charge transport. In this feature article, the use of nanomaterials in the hole transport and electron transport layers are reviewed. Specifically, SnO2 and NiOx are the leading materials with the most promise for translation to large scale applications. The review includes a discussion of the synthesis, formulation, and processing of these nanoparticles and provides insights for their further deployment towards commercially viable perovskite solar cells.
The Royal Society of Chemistry
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