First principles investigation on energetics, structure, and mechanical properties of amorphous carbon films doped with B, N, and Cl

Abstract: Amorphous carbon (a-C) films have received significant attention due to their reliable structures and superior mechanical, chemical and electronic properties, making them a strong candidate as a hard mask material. We investigated the energetics, structure, and electronic and mechanical properties of the B, N, and Cl doped a-C films based on density functional theory (DFT) calculation. Our DFT calculated results clearly show that introducing B and N atoms into a-C films makes the bulk modulus slightly reduced … Show more

“…All of the calculations were conducted by the Vienna Ab initio Simulation Package (VASP), which is based on DFT with the Perdew–Burke–Ernzerhof (PBE) functional set using a generalized-gradient approximation. , The PBE-D3 functional set was used based on the projector augmented wave approach with Kohn–Sham DFT energy corrected to include van der Waals interactions in all calculations. The PBE-D3 predictions predicted the electronic properties of numerous materials structures as reported by diverse studies of silicon structures, , TiN structures, ,, amorphous carbon structures, − and Al 2 O 3 structures. , The plane wave cut-off was set to 400 eV with a 3 × 3 × 1 k-mesh in all supercells. During the AIMD simulations, only Γ-point Brillouin zone integration, which is a relatively low-precision option, was used for computational efficiency.…”

First-Principles Investigation of Morphological Evolution of Tungsten Growth on Alumina Surfaces: Implications for Thin-Film Growth

“…All of the calculations were conducted by the Vienna Ab initio Simulation Package (VASP), which is based on DFT with the Perdew–Burke–Ernzerhof (PBE) functional set using a generalized-gradient approximation. , The PBE-D3 functional set was used based on the projector augmented wave approach with Kohn–Sham DFT energy corrected to include van der Waals interactions in all calculations. The PBE-D3 predictions predicted the electronic properties of numerous materials structures as reported by diverse studies of silicon structures, , TiN structures, ,, amorphous carbon structures, − and Al 2 O 3 structures. , The plane wave cut-off was set to 400 eV with a 3 × 3 × 1 k-mesh in all supercells. During the AIMD simulations, only Γ-point Brillouin zone integration, which is a relatively low-precision option, was used for computational efficiency.…”

First-Principles Investigation of Morphological Evolution of Tungsten Growth on Alumina Surfaces: Implications for Thin-Film Growth

“…Because the size of S and Se is more significant than that of C, the bond length increases when QD is doped with S and Se, whereas it decreases when O is introduced as a dopant in GQD because of the smaller size of the O atom. Other authors have also investigated this effect [49,50], which is very well known.…”

Enhanced NIR fluorescence quantum yield of graphene quantum dots using dopants

“…40 Therefore, increasing the amount of nitrogen enhances the chemical resistance of the amorphous carbon material, corresponding to previous density functional theory (DFT) results (calculated without considering the location of nitrogen) that the selectivity would be improved by nitrogen doping. 15,16,42…”

“…As a result of the calculation, a method of controlling the amount of hydrogen bonded to carbon or doping other substances was suggested. 15,16 In a previous study, 17 we fabricated an amorphous carbon lm free from hydrogen-containing precursors through direct current (DC) magnetron sputtering. The sputtered amorphous carbon lm sufficiently served as the hardmask, and its selectivity was controlled by the sp 2 and sp 3 bonding ratios, which are strongly dependent on the chamber pressure.…”

Effect of N doping on the microstructure and dry etch properties of amorphous carbon deposited with a DC sputtering system