Fluorene- and fluorenone-based molecules as electron-transporting SAMs for photovoltaic devices

Lauryna Monika Svirskaite; Ernestas Kasparavičius; Matas Steponaitis; Raitis Grzibovskis; Marius Franckevičius; Atanas Katerski; Arnas Naujokaitis; Smagul Karazhanov; Sajeesh Vadakkedath Gopi; Arturs Aizstrauts; Aivars Vembris; Vytautas Getautis; Tadas Malinauskas

doi:10.1039/d4ra00964a

Fluorene- and fluorenone-based molecules as electron-transporting SAMs for photovoltaic devices

RSC Adv. 2024 May 10;14(21):14973-14981. doi: 10.1039/d4ra00964a. eCollection 2024 May 2.

Affiliations

¹ Department of Organic Chemistry, Kaunas University of Technology Radvilenu pl. 19 Kaunas 50254 Lithuania tadas.malinauskas@ktu.lt.
² Institute of Solid State Physics, University of Latvia Kengaraga st. 8 Riga LV-1063 Latvia.
³ Center for Physical Sciences and Technology Sauletekio Ave. 3 10257 Vilnius Lithuania.
⁴ Department of Material and Environmental Technology, Tallinn University of Technology Ehitajate tee 5 Tallinn 19086 Estonia.
⁵ Department for Solar Energy, Institute for Energy Technology PO BOX 40 2027 Kjeller Norway.

Abstract

New semiconductors containing fluorene or fluorenone central fragments along with phosphonic acid anchoring groups were synthesized and investigated as electron transporting materials for possible application in photovoltaic devices. These derivatives demonstrate good thermal stability and suitable electrochemical properties for effective electron transport from perovskite, Sb₂S₃ and Sb₂Se₃ absorber layers. Self-assembled fluorene and fluorenone electron-transporting materials have shown improved substrate wettability, indicating bond formation between monolayer-forming compounds and the ITO, TiO₂, Sb₂S₃, or Sb₂Se₃ surface. Additionally, investigated materials have compatible energetic band alignment and can passivate perovskite interface defects, which makes them interesting candidates for application in the n-i-p structure perovskite solar cell.