Abstract
New breakthroughs are expecting to be achieved based on the discovery of novel interfacial materials for polymer solar cells (PSCs). Herein, the simple and facial approach of spin-coating technology with post heat and ultraviolet-ozone treatment is performed on niobium oxalate to prepare Nb2O5 interfacial layer with ultra-high transmittance. The ultraviolet photoemission spectroscopy results confirm that Nb2O5 with a work function of 4.85 eV is suitable for employing as anode buffer layer (ABL). The average power conversion efficiencies (PCEs) of the P3HT:PCBM-based fullerene devices with Nb2O5 ABL reaches to 4.01%, surpassing that (3.69%) of the control devices with ITO/PEDOT:PSS ABL. Further investigations on the PBDB-T:ITIC-based non-fullerene PSCs with Nb2O5 ABL demonstrate that a PCE as high as 8.67% can be reached, which is superior to that of device modified by PEDOT:PSS ABL (8.03%). Namely, 8% efficiency improvement in PSCs based on fullerene and non-fullerene acceptors realized as compared to the control devices with PEDOT:PSS ABL.
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•The facile spin-coating synthesis is proposed to fabricate alcohol-soluble Nb2O5.•Nb2O5 is successfully applied as anode buffer layer in polymer solar cells (PSCs).•Nb2O5 with excellent hole collection ratio is beneficial to form an ohmic contact.•The PSCs with Nb2O5 buffer layer demonstrate more distinguished performance.