S.F. Tzou scite author profile

Several dry and wet surface treatment methods are explored for a selective SiGe epitaxial film used to fabricate embedded SiGe pMOSFETs. Pre-clean conditions for the device wafers used in this study were limited by a realistic CMOS process window with tight thermal and chemical budgets due to dopant diffusion and hardmask erosion concerns. The effectiveness of these pre-clean methods is evaluated by SiGe epitaxial film quality and SIMS profiles of key residual contaminants such as C and O at the SiGe-Si substrate interface. As an effective low-temperature dry surface treatment, chemical bake in HCl/H 2 at temperature below 800 • C is found to reduce interface C and O peak concentrations by an order of magnitude. Wet clean in multiple cycles of DIW-O 3 (ozonated water), SC1 and diluted HF (DHF) is also presented to prepare epitaxial growth surfaces with accumulated damage and chemical residues from previous process steps. SiGe epitaxial film morphology is also observed to improve by increasing DHF clean time. For further improvement of film quality on the most difficult surfaces, Si seed layer was employed to initiate SiGe film nucleation and yield smooth film growth.

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Formation of Ni(Pt) Germanosilicide Using a Sacrificial Si Cap Layer

Chen

Chang

Chen

et al. 2007

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S.F. Tzou

Study of anodic oxidation of aluminum in mixed acid using a pulsed current

Using design based binning to improve defect excursion control for 45nm production

Characteristics of HfZrO<inf>x</inf> gate stack engineering for reliability improvement on 28nm HK/MG CMOS technology

Effective surface treatments for selective epitaxial SiGe growth in locally strained pMOSFETs

Formation of Ni(Pt) Germanosilicide Using a Sacrificial Si Cap Layer

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