Title :
Hafnium or zirconium high-k fab cross-contamination issues
Author :
Vermeire, Bert ; Pandit, Viraj S. ; Parks, Harold G. ; Raghavan, Srini ; Ramkumar, Krishnaswami ; Jeon, Joong
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Arizona, Tucson, AZ, USA
Abstract :
Hf and Zr contamination during immersion in process solutions is most likely to occur in neutral and caustic solutions. Both Hf and Zr contamination are introduced onto the wafer surface if they are present in an ammonium hydroxide peroxide mixture solution (which is caustic), but such contamination is removed using existing acid cleans. Large amounts of wafer-to-wafer cross contamination occurs in plasma etch tools. Particles can cause cross contamination in a thermal reactor during high-temperature anneals of high-k dielectric layers. Residual surface cross contamination does not diffuse into the wafers during thermal processing. If contamination remains on a wafer, gate oxide integrity degradation is only observed at high concentrations. Near surface minority carrier lifetime is also affected, but bulk lifetime is not.
Keywords :
annealing; carrier lifetime; dielectric thin films; elemental semiconductors; hafnium; liquid phase deposition; metallic thin films; semiconductor epitaxial layers; silicon; sputter etching; surface contamination; zirconium; Hf; Si; Zr; acid cleans; ammonium hydroxide peroxide mixture solutions; caustic solutions; gate oxide integrity degradation; hafnium high-k fab cross-contamination; high-k dielectric layers; high-temperature annealing; neutral solutions; plasma etch tools; process solutions; residual surface cross contamination; surface minority carrier lifetime; thermal processing; thermal reactor; wafer oxide integrity degradation; wafer surface; wafer-wafer cross contamination; zirconium high-k fab cross-contamination; Annealing; Etching; Hafnium; High K dielectric materials; High-K gate dielectrics; Inductors; Plasma applications; Plasma materials processing; Surface contamination; Zirconium; 65; Cleaning; cross contamination; hafnium dioxide; high-k dielectric; zirconium dioxide;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
DOI :
10.1109/TSM.2004.835726
