Enhanced Inversion Mobility on 4H-SiC $(\\hbox {11}\\overline {\\hbox {2}} \\hbox {0})$ Using Phosphorus and Nitrogen Interface Passivation

Author

Gang Liu ; Ahyi, Ayayi C. ; Yi Xu ; Isaacs-Smith, T. ; Sharma, Yogesh K. ; Williams, John R. ; Feldman, L.C. ; Dhar, Sudipta

Author_Institution

Dept. of Electr. & Comput. Eng., Rutgers Univ., Piscataway, NJ, USA

Volume

34

Issue

2

fYear

2013

fDate

Feb. 2013

Firstpage

181

Lastpage

183

Abstract

Low interface trap density and high channel mobility on nonpolar faces of 4H-SiC, such as the (11[2̅]0) a-face, are of fundamental importance in the understanding of SiC MOS devices. It is also critical for high-voltage trench power MOSFET development. We report new results on the passivation of the SiO₂/a-face 4H-SiC interface using phosphorus, yielding field effect mobility of ~125 cm₂/V · s. We also revisit the conventional NO passivation, for which a mobility of ~85 cm₂/V · s was achieved on the a-face. These results not only establish new levels of mobility in SiC MOSFETS but also lead to further insights into factors currently limiting SiC inversion layer mobility.

Keywords

nitrogen; phosphorus; power MOSFET; silicon compounds; MOS devices; SiC; a-face; enhanced inversion mobility; high-voltage trench power MOSFET development; nitrogen interface passivation; phosphorus interface passivation; Annealing; Iron; Logic gates; MOSFET circuits; Nitrogen; Passivation; Silicon carbide; 4H-SiC MOSFET; counter-doping; mobility;

fLanguage

English

Journal_Title

Electron Device Letters, IEEE

Publisher

ieee

ISSN

0741-3106

Type

jour

DOI

10.1109/LED.2012.2233458

Filename

6407729

Enhanced Inversion Mobility on 4H-SiC Using Phosphorus and Nitrogen Interface Passivation

Gang Liu ; Ahyi, Ayayi C. ; Yi Xu ; Isaacs-Smith, T. ; Sharma, Yogesh K. ; Williams, John R. ; Feldman, L.C. ; Dhar, Sudipta

jour

Enhanced Inversion Mobility on 4H-SiC $(\\hbox {11}\\overline {\\hbox {2}} \\hbox {0})$ Using Phosphorus and Nitrogen Interface Passivation