Electrons have not only charge and spin degrees of freedom, but also additional valley degrees of freedom. The search for valleytronic materials with large valley splits is important for the development of valleytronics. In this work, we applied first principles computations to calculate 1 L HfCO at the level of HSE06. When the spin-orbit coupling (SOC) effect is considered, 1 L HfCO is an indirect bandgap semiconductor with a bandgap of 0.952 eV. Meanwhile, valley splitting occurs between the conduction bands Γ and K, with a valley splitting value as high as 98.228 meV. Bader charge analysis was used to determine that Hf-O and Hf-C are ionic bonds. The computed elastic constants and phonon spectra proved that 1 L HfCO is mechanically and dynamically stable. In addition, the Berry curvature of 1 L HfCO is non-zero. In the work the effect of the electronic properties of 1 L HfCO was also calculated with respect to the biaxial strain. The results show that the biaxial strain can well regulate the band gap and valley splitting. Finally, we calculated the effects of hole and electron doping on the band gap and valley splitting of 1 L HfCO. The results show that the band gap and valley splitting are linearly related to the doping concentration. Our study shows that 1 L HfCO is a promising two-dimensional valleytronics material.
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