Akademik Məlumat İdarəetmə Sistemi
Materials Science in Semiconductor Processing, vol.197, 2025 (SCI-Expanded)
The electronic and magnetic characteristics of TM-doped single-walled SiC nanotubes were studied using Density Functional Theory and the local spin density approximation. From ab initio simulations, bandgap for undoped SiC nanotube and SiC:V systems which are obtained 0.98 eV, and 0.6 (spin-up); 1.4 eV (spin-down), respectively. After doped with 3d transition metals, the SiC nanotube systems induce a magnetic response and the total magnetizations of the quantum confined single walled SiC:Co and SiC:V systems are ∼1.9 μB and 1.0 μB, respectively. The results of total energy calculations predicted that the ferromagnetic and antiferromagnetic phases are stable for VxSi1-xC and CoxSi1-xC. The obtained values of formation energies show the stability of VxSi1-xC and CoxSi1-xC systems. Our results predicted that VxSi1-xC have semi-metallic behavior with Curie temperature is nearly above to 300 K and it suitable for spin-based applications in future material informatics research field. CoxSi1-xC shows metallic behavior, and it is the better choice for optoelectronics devices with a Curie temperature less than room temperature.