Titanium Silicide: A Promising Candidate of Recombination Layer for Perovskite/Tunnel Oxide Passivated Contact Silicon Two-Terminal Tandem Solar Cells.
Dowon PyunDongjin ChoiSoohyun BaeSang-Won LeeHoyoung SongSeok Hyun JeongSolhee LeeJae-Keun HwangSujin ChoHuiyeon LeeMyeongji WooYerin LeeKyunghwan KimYoungmin KimChanghyun LeeYoungho ChoeYoonmook KangDonghwan KimHae-Seok LeePublished in: ACS applied materials & interfaces (2024)
This study proposes a titanium silicide (TiSi 2 ) recombination layer for perovskite/tunnel oxide passivated contact (TOPCon) 2-T tandem solar cells as an alternative to conventional transparent conductive oxide (TCO)-based recombination layers. TiSi 2 was formed while TiO 2 was made by oxidizing a Ti film deposited on the p + -Si layer. The reaction formation mechanism was proposed based on the diffusion theory supported by experimental results. The optical and electrical properties of the TiSi 2 layer were optimized by controlling the initial Ti thicknesses (5-100 nm). With the initial Ti of 50 nm, the lowest reflectance and highly ohmic contact between the TiO 2 and p + -Si layers with a contact resistivity of 161.48 mΩ·cm 2 were obtained. In contrast, the TCO interlayer shows Schottky behavior with much higher contact resistivities. As the recombination layer of TiSi 2 and the electron transport layer of TiO 2 are formed simultaneously, the process steps become simpler. Finally, the MAPbI 3 /TOPCon tandem device yielded an efficiency of 16.23%, marking the first reported efficiency for a device including a silicide-based interlayer.