Silicon Nitride Based Coatings Grown by Reactive Magnetron Sputtering

Abstract: Silicon nitride and silicon nitride-based ceramics have several favorable material properties, such as high hardness and good wear resistance, which makes them important materials for the coating industry. This thesis focuses the synthesis of silicon nitride, silicon oxynitride, and silicon carbonitride thin films by reactive magnetron sputtering. The films were characterized based on their chemical composition, chemical bonding structure, and mechanical properties to link the growth conditions to the film pro… Show more

“…In our experiments, most electrons in the plasma had low electron energy ( < 2.4 eV) because a significant amount of energy was consumed as collisional energy for ionization or dissociation of N 2 molecules. Therefore, the unstable state of the N free radicals generated by low-energy electron collision reached the Cu surface, and metastable Cu nitride passivation in the form of Cu 4 N was produced rather than Cu 3 N. Table 4 lists the energy required for dissociation and ionization of Ar, N 2 , and Cu 36 , 39 .…”

“…Therefore, the unstable state of the N free radicals generated by low-energy electron collision reached the Cu surface, and metastable Cu nitride passivation in the form of Cu 4 N was produced rather than Cu 3 N. Table 4 lists the energy required for dissociation and ionization of Ar, N 2 , and Cu 36 , 39 .…”

Anti-oxidant copper layer by remote mode N2 plasma for low temperature copper–copper bonding

“…In our experiments, most electrons in the plasma had low electron energy ( < 2.4 eV) because a significant amount of energy was consumed as collisional energy for ionization or dissociation of N 2 molecules. Therefore, the unstable state of the N free radicals generated by low-energy electron collision reached the Cu surface, and metastable Cu nitride passivation in the form of Cu 4 N was produced rather than Cu 3 N. Table 4 lists the energy required for dissociation and ionization of Ar, N 2 , and Cu 36 , 39 .…”

“…Therefore, the unstable state of the N free radicals generated by low-energy electron collision reached the Cu surface, and metastable Cu nitride passivation in the form of Cu 4 N was produced rather than Cu 3 N. Table 4 lists the energy required for dissociation and ionization of Ar, N 2 , and Cu 36 , 39 .…”

Anti-oxidant copper layer by remote mode N2 plasma for low temperature copper–copper bonding