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Pyridine Bridging Diphenylamine-Carbazole with Linking Topology as Rational Hole Transporter for Perovskite Solar Cells Fabrication

Peng Huang, Manju Manju, Samrana Kazim, G. Sivakumar, Manuel Salado, Rajneesh Misra, Shahzada Ahmad

2020ACS Applied Materials & Interfaces53 citationsDOIOpen Access PDF

Abstract

Developing cost-effective and rational hole transporting materials is critical for fabricating high-performance perovskite solar cells (PSCs) and to promote their commercial endeavor. We have designed and developed pyridine (core) bridging diphenylamine-substituted carbazole (arm) small molecules, named as 2,6PyDANCBZ and 3,5PyDANCBZ. The linking topology of core and arm on their photophysical, thermal, semiconducting, and photovoltaic properties were probed systematically. We found that the 2,6PyDANCBZ shows higher mobility and conductivity along with uniform film-forming ability as compared to 3,5PyDANCBZ. The PSCs fabricated with 2,6PyDANCBZ supersede the performance delivered by Spiro-OMeTAD and importantly also gave improved long-term stability. Our findings put forward small molecules based on core-arm linking topology for cost-effective hole selective layers designing.

Topics & Concepts

DiphenylamineMaterials scienceBridging (networking)FabricationThermal stabilityPerovskite (structure)Topology (electrical circuits)Photovoltaic systemCarbazoleMoleculeNanotechnologyOptoelectronicsChemical engineeringOrganic chemistryElectrical engineeringComputer scienceChemistryMedicineComputer networkMetallurgyEngineeringPathologyAlternative medicinePerovskite Materials and ApplicationsOrganic Light-Emitting Diodes ResearchOrganic Electronics and Photovoltaics
Pyridine Bridging Diphenylamine-Carbazole with Linking Topology as Rational Hole Transporter for Perovskite Solar Cells Fabrication | Litcius