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Interface Modification of Tin Oxide Electron‐Transport Layer for the Efficiency and Stability Enhancement of Organic Solar Cells

Jifa Wu, Feng Tang, Shaoguang Wu, Yumeng Li, Liangang Xiao, Xu‐Hui Zhu, Xiaobin Peng

2023Advanced Energy Materials24 citationsDOI

Abstract

Abstract A small molecular phenanthroline derivative Phen‐NaDPO (3‐[6‐(diphenylphosphinyl)‐2‐naphthalenyl]‐1,10‐Phenanthroline) to modify tin oxide (SnO 2 ) electron‐transport layer (ETL) in organic solar cells is employed. Quantum chemistry calculations and experimental results show that Phen‐NaDPO can interact with SnO 2 , thereby effectively passivating the surface defects, reducing the work function and improving the electrical conductivity of SnO 2 , leading to more efficient electron extraction and transport in the organic solar cells (OSCs). Moreover, upon the Phen‐NaDPO modification, the decreased surface energy of SnO 2 ETL accounts for enhanced exciton dissociation and charge transport, due to the more ordered molecular organizations of the active layers. Consequently, the inverted OSCs involving Phen‐NaDPO/SnO 2 ETLs exhibit an enhanced power conversion efficiency of 17.06% (PM6:Y6) and 18.31% (PM6:L8‐BO), which is the highest efficiency for SnO 2 ETL‐based binary solar cells to date. Furthermore, the devices based on Phen‐NaDPO/SnO 2 ETL show better device stability (storage stability, photostability and humid stability), with T 80 exceeding 200 h encapsulated under light irradiation and 400 h without encapsulation in high‐humidity ambient condition. These results demonstrate that the modification of SnO 2 using wide‐band highly stable conjugated small molecules is very promising for simultaneously improve the efficiencies and device stability of OSCs.

Topics & Concepts

Materials scienceOrganic solar cellWork functionTin oxideElectron transport chainChemical engineeringEnergy conversion efficiencyDissociation (chemistry)Active layerOptoelectronicsOxideNanotechnologyLayer (electronics)DopingComposite materialPolymerChemistryPhysical chemistryMetallurgyBiochemistryThin-film transistorEngineeringOrganic Electronics and PhotovoltaicsPerovskite Materials and ApplicationsConducting polymers and applications
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