Effect of DC bias on microstructural rearrangement of a-SiN:H films on PET substrate

“…Si 3 N 4 has been extensively used in microelectronics, optoelectronics, solar cells, machining tools, and the automotive industry because of its excellent physical properties. − It is well-known that the two stable phases (α and β) of Si 3 N 4 possess a hexagonal crystal structure in which all Si atoms are covalently bonded to N atoms in a tetrahedral structure . The third, low-compressibility, and superhard cubic spinel phase (γ-Si 3 N 4 ) was synthesized only in 1999, and its interesting properties were revealed by Ching et al through first-principles calculations.…”

Composition-Dependent Structural and Electronic Properties of α-(Si_1−xC_x)₃N₄

“…Si 3 N 4 has been extensively used in microelectronics, optoelectronics, solar cells, machining tools, and the automotive industry because of its excellent physical properties. − It is well-known that the two stable phases (α and β) of Si 3 N 4 possess a hexagonal crystal structure in which all Si atoms are covalently bonded to N atoms in a tetrahedral structure . The third, low-compressibility, and superhard cubic spinel phase (γ-Si 3 N 4 ) was synthesized only in 1999, and its interesting properties were revealed by Ching et al through first-principles calculations.…”

Composition-Dependent Structural and Electronic Properties of α-(Si_1−xC_x)₃N₄

The effect of working pressure on the chemical bond structure and hydrophobic properties of PET surface treated by N ion beams bombardment

Microstructure, mechanical properties and wetting behavior of F: Si–C–N films as bio-mechanical coating grown by DC unbalanced magnetron sputtering