Plasma Oxidized Ti₃C₂Tₓ MXene as Electron Transport Layer for Efficient Perovskite Solar Cells
2021
Wang, Jiming | Cai, Zhizhao | Lin, Dongxu | Chen, Ke | Zhao, Lichen | Xie, Fangyan | Su, Rui | Xie, Weiguang | Liu, Pengyi | Zhu, Rui
Recently, the two-dimensional material Ti₃C₂Tₓ MXene has attracted interest from researchers in perovskite solar cells (PSCs) with its great advantages in terms of high transmittance, high conductivity, tunable work function, and solution processability. However, the MXene-based PSC performance has still been inferior to that of the traditional TiO₂- or SnO₂-based counterpart up until now. Some critical issues regarding to the MXene/perovskite interface still have not been well addressed. Herein, we used the Ti₃C₂Tₓ MXene as electron transport layer in PSCs via a room-temperature solution process followed by oxygen plasma treatment. Various characterization techniques were taken to establish the correlation between the surface properties and termination groups of MXene. We showed that oxygen plasma treatment could break parts of Ti–C bonds and generate abundant Ti–O bonds randomly distributed on MXene. The surface modification resulted in tunable work functions of MXene, as well as reduced trap states and improved electron transport close to the interface. In addition, the surface tension of MXene and corresponding perovskite morphology were thoroughly investigated by the contact angle and topography measurements. High-resolution XPS spectra indicated the Pb–O interactions between perovskite and MXene, which contributed to the device stability improvement.
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