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Exceptional Thermoelectric Performance of Cu 2 (Zn,Fe,Cd)SnS 4 Thin Films.

Yu LiuPaul D McNaughterXiaodong LiuAndrey V KretininJonathan Michael SkeltonFeridoon AzoughDavid J LewisRobert Freer
Published in: ACS applied materials & interfaces (2024)
High-quality Cu 2 (Zn,Fe,Cd)SnS 4 (CZFCTS) thin films based on the parent CZTS were prepared by aerosol-assisted chemical vapor deposition (AACVD). Substitution of Zn by Fe and Cd significantly improved the electrical transport properties, and monophasic CZFCTS thin films exhibited a maximum power factor (PF) of ∼0.22 μW cm -1 K -2 at 575 K. The quality and performance of the CZFCTS thin films were further improved by postdeposition annealing. CZFCTS thin films annealed for 24 h showed a significantly enhanced maximum PF of ∼2.4 μW cm -1 K -2 at 575 K. This is higher than all reported values for single-phase quaternary sulfide (Cu 2 BSnS 4 , B = Mn, Fe, Co, Ni) thin films and even exceeds the PF for most polycrystalline bulk materials of these sulfides. Density functional theory (DFT) calculations were performed to understand the impact of Cd and Fe substitution on the electronic properties of CZTS. It was predicted that CZFCTS would have a smaller band gap than CZTS and a higher density of states (DoS) near the Fermi level. The thermal conductivity and thermoelectric figure of merit ( zT ) of the CZFCTS thin films have been evaluated, yielding an estimated maximum zT range of 0.18-0.69 at 550 K. The simple processing route and improved thermoelectric performance make CZFCTS thin films extremely promising for thermoelectric energy generation.
Keyphrases
  • metal organic framework
  • density functional theory
  • aqueous solution
  • molecular dynamics
  • heavy metals
  • nk cells
  • risk assessment
  • room temperature
  • ionic liquid