Study of FSG/SiO/sub 2/ double interlayer conditions to prevent Al wiring delamination for sub-0.18-μm device integration

Abstract: A double interlayer of high-density plasma fluorinated silica glass (FSG) and SiO 2 has been developed to control fluorine instability for sub-0.18-m devices. However, the interlayer conditions need further study for robust integration. The authors investigate the optimum conditions to prevent Al wiring delamination. The correlation between the incidence of delamination and F concentration at Ti-SiO 2 was demonstrated by the three-dimensional mapping of interfacial F concentrations with various thicknesses of … Show more

“…This type of defect was found on the metal pads, shown in Fig. 7͑a͒, similar to the result of Kawashima et al 14 derlayer barrier layer ͑TiN͒, metal lines ͑Al͒, and passivation layer (Si 3 N 4 ). Another defect type, i.e., peeling, is also observed for a 350°C SiOF film, as shown in Fig.…”

Effect of deposition temperature on thermal stability in high-density plasma chemical vapor deposition fluorine-doped silicon dioxide

“…This type of defect was found on the metal pads, shown in Fig. 7͑a͒, similar to the result of Kawashima et al 14 derlayer barrier layer ͑TiN͒, metal lines ͑Al͒, and passivation layer (Si 3 N 4 ). Another defect type, i.e., peeling, is also observed for a 350°C SiOF film, as shown in Fig.…”

Effect of deposition temperature on thermal stability in high-density plasma chemical vapor deposition fluorine-doped silicon dioxide

“…5-3.8), high gap-filling capability, and especially simplicity of IMD integration. 8,9 Several methods have been proposed to prevent the metal delamination. %, induces water absorption and degrades film properties.…”

“…3,4 However, high fluorine concentration of the FSG films, exceeding 5 at. 4,8,10 However, the effect of process conditions of N 2 treatment and capping layers on the metal delamination is not fully examined in previous studies. [5][6][7] Moreover, fluorine outgassing results in metal delamination due to the degradation of adhesion ability.…”

Optimization of post-N2 treatment and undoped-Si-glass cap to improve metal wring delamination in deep submicron high-density plasma-fluorinated silica glass intermetal dielectric application

Integration of a stack of two fluorine doped silicon oxide film with ULSI interconnect metallization