Enhanced Photovoltaic Performance of Perovskite Solar Cells by Co-Doped Spinel Nickel Cobaltite Hole Transporting Layer
Apostolos Ioakeimidis, Ioannis T. Papadas, Dimitris Tsikritzis,, Gerasimos S. Armatas, Stella Kennou, Stelios A. Choulis

TL;DR
This study demonstrates that co-doping spinel nickel cobaltite as a hole transport layer significantly improves the efficiency of perovskite solar cells by enhancing hole extraction and device performance.
Contribution
The paper introduces a novel co-doped spinel nickel cobaltite hole transport layer fabricated via solution combustion and doctor-blading, leading to improved solar cell efficiency.
Findings
Achieved a power conversion efficiency of 16.5%.
Observed increased ionization potential with co-doping.
Revealed surface stoichiometry changes due to Cu cation substitution.
Abstract
Solution combustion synthesized hole transport layer of co-doped spinel nickel cobaltite were fabricated using doctor-blading technique for planar inverted perovskite solar cells. Perovskite solar cells incorporating Co-doped spinel nickel cobaltite shown an increase in device performance parameters compared to un-doped spinel nickel cobaltite, leading to PCE of 16.5%. X-ray photoelectron spectroscopy measurements revealed the tendency of Cu cations to replace preferably the surface Ni atoms changing the surface stoichiometry of spinel nickel cobaltite inducing a cathodic polarization. Ultraviolet photoelectron spectroscopy measurements unveiled the increase of the ionization potential by 0.1 eV for co-doped spinel nickel cobaltite film compare to undoped spinel nickel cobaltite-based hole transporting layer. We attribute the enhanced PCE of inverted perovskite solar cells presented due…
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