Title :
Eliminating a polysilicon hole defect created during oxide removal
Author :
Shin, Ikhoon ; Doub, Jason ; Mortesen, Keith ; Lappan, Raymond
Author_Institution :
ON Semicond., Pocatello, ID, USA
Abstract :
Gate Oxide failure analysis during technology qualification led to discovery of the polysilicon hole defects in large (>;200K μm2) PMOS capacitors. In-line KLA inspections confirmed that polysilicon holes were formed during the salicide block process module. It is hypothesized that a three way interaction between the P+ source/drain implanted boron, heat added during salicide block mask deposition, and NH4+ in the BOE causes the polysilicon hole. By replacing the BOE (Buffered Oxide Etchant) with a 100:1 HF solution, the creation of polysilicon holes was eliminated as confirmed by KLA and VBD testing.
Keywords :
MOS capacitors; boron; elemental semiconductors; failure analysis; inspection; masks; silicon; B; BOE; PMOS capacitors; Si; VBD testing; buffered oxide etchant; gate oxide failure analysis; in-line KLA inspections; oxide removal; polysilicon hole defect elimination; salicide block mask deposition; salicide block process module; source-drain implanted boron; Boron; Films; Hafnium; Implants; Logic gates; Silicon; Visualization; BOE; Boron implant; GOI; Salicide block module; polysilicon void defects;
Conference_Titel :
Advanced Semiconductor Manufacturing Conference (ASMC), 2011 22nd Annual IEEE/SEMI
Conference_Location :
Saratoga Springs, NY
Print_ISBN :
978-1-61284-408-4
Electronic_ISBN :
1078-8743
DOI :
10.1109/ASMC.2011.5898195
