Title :
Investigation of RuTiN and RuTiO diffusion barrier suggested by a new design concept for future high-density memory capacitors
Author :
Yoon, Dong-Soo ; Roh, Jae Sung
Author_Institution :
Memory Res. & Dev. Div., Hynix Semicond. Inc, Kyoungki, South Korea
fDate :
4/1/2002 12:00:00 AM
Abstract :
As a new design concept for high-density memory capacitors, we proposed both RuTiN (RTN) and the RuTiO (RTO) materials as sacrificial oxygen diffusion barriers. The sheet resistance of the newly developed RuTiN and RuTiO barriers after oxidation was much lower than that of polycrystalline nitride and ternary amorphous barriers reported by others. For the Pt/barrier/TiSi/sub x//n/sup ++/poly-plug/n/sup +/ channel layer/Si contact structure, contact resistance was below 5 kohm even after annealing up to 750/spl deg/C. Correspondingly, the new RuTiN and RuTiO films, as diffusion barriers for oxygen, are very promising materials for high-density capacitors.
Keywords :
DRAM chips; MIM devices; annealing; contact resistance; diffusion barriers; oxidation; ruthenium compounds; sputtered coatings; thin film capacitors; titanium compounds; 5 kohm; 750 C; DRAM technology; MIM capacitors; Pt-TiSi-Si; Pt/barrier/TiSi/sub x//n/sup ++/poly-plug/n/sup +/ channel layer/Si contact structure; RuTiN; RuTiN diffusion barrier; RuTiO; RuTiO diffusion barrier; annealing; contact resistance; dc sputtering; design concept; high-density memory capacitors; oxidation; sacrificial oxygen diffusion barriers; sheet resistance; Binary search trees; Contact resistance; Dielectric materials; Electrical resistance measurement; Electrodes; MIM capacitors; Metallization; Oxidation; Plasma temperature; Substrates;
Journal_Title :
Electron Device Letters, IEEE
