We report Pt deposition on a Si substrate by means of atomic layer deposition(ALD) using(methylcyclopentadienyl) trimethylplatinum(CH_3C_5H_4Pt(CH_3)_3) and O_2.Silicon substrates with both HF-last and oxidela...We report Pt deposition on a Si substrate by means of atomic layer deposition(ALD) using(methylcyclopentadienyl) trimethylplatinum(CH_3C_5H_4Pt(CH_3)_3) and O_2.Silicon substrates with both HF-last and oxidelast surface treatments are employed to investigate the influence of surface preparation on Pt-ALD.A significantly longer incubation time and less homogeneity are observed for Pt growth on the HF-last substrate compared to the oxide-last substrate.An interfacial oxide layer at the Pt-Si interface is found inevitable even with HF treatment of the Si substrate immediately prior to ALD processing.A plausible explanation to the observed difference of Pt-ALD is discussed.展开更多
基金Project supported by the National S&T Major Project 02(No.2009ZX02035-003)the National Natural Science Foundation of China(No. 61176090)the Program for Professor of Special Appointment(Eastern Scholar) at Shanghai Institutions of Higher Learning
文摘We report Pt deposition on a Si substrate by means of atomic layer deposition(ALD) using(methylcyclopentadienyl) trimethylplatinum(CH_3C_5H_4Pt(CH_3)_3) and O_2.Silicon substrates with both HF-last and oxidelast surface treatments are employed to investigate the influence of surface preparation on Pt-ALD.A significantly longer incubation time and less homogeneity are observed for Pt growth on the HF-last substrate compared to the oxide-last substrate.An interfacial oxide layer at the Pt-Si interface is found inevitable even with HF treatment of the Si substrate immediately prior to ALD processing.A plausible explanation to the observed difference of Pt-ALD is discussed.
