Szu-Wei Huang scite author profile

Hwu

2004

MOS capacitors with an ultrathin aluminum oxide (Al 2 O 3 ) gate dielectric were fabricated on n-type 4H-SiC. Al 2 O 3 was prepared by room-temperature nitric acid (HNO 3 ) oxidation of ultrathin Al film followed by furnace annealing. The effective dielectric constant of 9 4 and equivalent oxide thickness of 26 A are produced, and the interfacial layer and carbon clusters are not observed in this paper. The electrical responses of MOS capacitor under heating and illumination are used to identify the conduction mechanisms. For the positively biased case, the conduction mechanism is shown to be dominated by Schottky emission with an effective barrier height of 1 12 0 13 eV. For the negatively biased case, the gate current is shown to be due to the generation-recombination process in depletion region and limited by the minority carrier generation rate. The feasibility of integrating alternative gate dielectric on SiC by a low thermal budget process is demonstrated.

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High-<tex>$k$</tex>Al<tex>$_2$</tex>O<tex>$_3$</tex>Gate Dielectrics Prepared by Oxidation of Aluminum Film in Nitric Acid Followed by High-Temperature Annealing

Kuo

Hsu

et al. 2004

Electrical characterization and process control of cost-effective high-k aluminum oxide gate dielectrics prepared by anodization followed by furnace annealing

Hwu

2003

Lateral nonuniformity of effective oxide charges in MOS capacitors with Al/sub 2/O/sub 3/ gate dielectrics

Hwu

2006

Solid-State Electronics

Electrical characteristics of ultra-thin gate oxides (<3 nm) prepared by direct current superimposed with alternating-current anodization

Chen¹,

Huang²,

Hwu³

2004