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Effects of gamma-ray irradiation on material and electrical properties of AlN gate dielectric on 4H-SiC

2024-05-08


Author(s): Zhu, XG (Zhu, Xiaogang); Shen, ZW (Shen, Zhanwei); Wang, ZJ (Wang, Z. J.); Liu, ZR (Liu, Zhengran); Miao, YY (Miao, Yuyang); Yue, SZ (Yue, Shizhong); Fu, Z (Fu, Zhao); Li, ZH (Li, Zihao); Zhang, YN (Zhang, Yuning); Hong, RD (Hong, Rongdun); Wu, SX (Wu, Shaoxiong); Chen, XP (Chen, Xiaping); Cai, JF (Cai, Jiafa); Fu, DY (Fu, Deyi); Zhang, F (Zhang, Feng)

Source: NANOTECHNOLOGYVolume: 35Issue: 27  Article Number: 275704  DOI: 10.1088/1361-6528/ad3a6e  Published Date: 2024 JUL 1

Abstract: This article investigates the radiation effects on as-deposited and annealed AlN films on 4H-SiC substrates under gamma-rays. The AlN films are prepared using plasma-enhanced-atomic-layer-deposition on an n-type 4H-SiC substrate. The AlN/4H-SiC MIS structure is subjected to gamma-ray irradiation with total doses of 0, 300, and 600 krad(Si). Physical, chemical, and electrical methods were employed to study the variations in surface morphology, charge transport, and interfacial trapping characteristics induced by irradiation. After 300 krad(Si) irradiation, the as-deposited and annealed samples exhibit their highest root mean square values of 0.917 nm and 1.190 nm, respectively, which is attributed to N vacancy defects induced by irradiation. Under irradiation, the flatband voltage (V fb) of the as-deposited sample shifts from 2.24 to 0.78 V, while the annealed sample shifts from 1.18 to 2.16 V. X-ray photoelectron spectrum analysis reveals the decomposition of O-related defects in the as-deposited AlN and the formation of Al(NO x ) y compounds in the annealed sample. Furthermore, the space-charge-limits-conduction (SCLC) in the as-deposited sample is enhanced after radiation, while the barrier height of the annealed sample decreases from 1.12 to 0.84 eV, accompanied by the occurrence of the SCLC. The physical mechanism of the degradation of electrical performance in irradiated devices is the introduction of defects like N vacancies and O-related defects like Al(NO x ) y . These findings provide valuable insights for SiC power devices in space applications.

Accession Number: WOS:001206590100001

PubMed ID: 38574479

Author Identifiers:

AuthorWeb of Science ResearcherID     ORCID Number

Shen, Zhanwei      0000-0002-4693-2503

ISSN: 0957-4484

eISSN: 1361-6528




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