Stabilization of lead-free bulk CsSnI3 perovskite thermoelectrics via incorporating of TiS3 nanoribbon clusters
Abstract
The intense research for efficient low-temperature thermoelectric materials motivates the exploration of innovative compounds and composite systems. This study examines the effects of integrating low-dimensional titanium trisulfide (TiS3) into bulk tin-based halide perovskites (CsSnI3) for use in thermoelectric applications. The addition of small amounts of two-dimensional titanium trisulfide (TiS3) to bulk tin-based halide perovskites (CsSnI3) significantly enhanced the structural stability of the composite material and suppressed oxidation processes. The CsSnI3-TiS3 composites demonstrated stabilization of temperature-dependent electrical properties (conductivity and Seebeck coefficient). This study provides valuable insights into the promising approach of using low-dimensional TiS3 as an additive to stabilize the thermoelectric performance of CsSnI3.
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