In recent years, the energy crisis and global warming have been urgent problems that need to be solved. As is known, thermoelectric (TE) materials can transfer heat energy to electrical energy without air pollution. High-throughput calculations as a novel approach are adopted by screening promising TE materials. In this paper, we use first-principles calculations combined with the semiclassical Boltzmann transport theory to estimate the TE performance of monolayer IrClO according to the prediction that IrClO has potential as a good TE material high-throughput calculations. The low thermal conductivities of 1.73 and 4.68 W mK of IrClO along the - and -axes are calculated, respectively, which exhibits the strong anisotropy caused by the difference in group velocities of low-frequency phonon modes. Then, the electronic transport properties are explored, and the figure of merit is eventually obtained. The maximum value reaches 2.85 (0.40) along the -axis (-axis) at 700 K, revealing that the TE properties of the IrClO monolayer are highly anisotropic. This work reveals that the anisotropic layer IrClO exhibits high TE performance, which confirms that it is feasible to screen excellent TE materials high-throughput calculations.
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