Affiliation:
1. Microscience & Nanophysics Laboratory Department of Physics National Institute of Technology Silchar Silchar Assam 788010 India
2. Quantum Materials & Devices Unit Institute of Nano Science and Technology Mohali Punjab 140306 India
3. Department of Chemistry National Institute of Technology Silchar Silchar Assam 788010 India
4. School of Engineering and Technology National Forensic Sciences University Gandhinagar Gujarat 382007 India
Abstract
AbstractAlthough the atmospheric stability of lead‐free inorganic double perovskite (DP) solar cells (PSCs) looks promising, their further development is hampered by inadequate film quality and non‐radiative carrier recombination at the interfaces. Herein, the incorporation of a newly developed intriguing class of 2D material Ti3C2Tx MXene nanosheets with the photo‐absorbing Cu2AgBiI6 (CABI) active layer of a fully inorganic solar cell is reported. The highly conductive Ti3C2Tx nanosheets work as a multi‐functional additive by tuning the band gap, reducing the non‐radiative carrier recombination, and inhibiting carrier accumulation. In addition, the presence of Ti3C2Tx MXene increases the surface free energy of the perovskite film, which elevates the energy barrier for nucleation and realizes a highly crystalline CABI perovskite film. Primarily, the MXene modification accelerates the charge extraction and transport at the interfaces of the active layer, utilizing energy level alignment with the charge transport layers. Consequently, the photo‐conversion efficiency (PCE) of the device with MXene is substantially enhanced to 1.50%. Moreover, the 2D Ti3C2Tx nanosheets increased the long‐term stability of the devices by retaining 70% of the initial PCE after 1680 h. With regard to relieving the severe carrier recombination at the interfaces, this work sets a new paradigm toward imminent solar energy conversion.