材料科学
分子束外延
薄膜
硅
光电子学
成核
半最大全宽
压电
压电系数
宽禁带半导体
外延
表面粗糙度
晶体生长
氮化物
带隙
氮化硅
半导体
表面光洁度
异质结
图层(电子)
钪
单晶硅
复合材料
分子束
光学
铝
矿物学
晶格常数
粘着系数
金属有机气相外延
Crystal(编程语言)
X射线晶体学
作者
R. Singh,N. Veeraraghavan,C. Savant,Debaditya Bhattacharya,W. Zhao,T. Nguyen,Anand Ithepalli,Pierce Lonergan,H. G. Xing,D. Jena
摘要
Wurtzite aluminum scandium nitride thin films are a leading candidate material for the development of next-generation semiconductor electronic, photonic, and acoustic devices. The integration of high-quality AlScN thin films on a silicon platform is of scientific and commercial interest. Here, we report the successful epitaxial growth of crack-free metal-polar AlScN thin films on (111) silicon substrates by plasma-assisted molecular beam epitaxy. We identify critical nucleation conditions for smooth morphology and growth parameters for high crystal quality and stress mitigation. Using an AlN nucleation layer grown under nitrogen-rich conditions and compositionally graded AlScN buffer layers, we obtain single-phase films with narrow 002 rocking curve FWHM as low as 0.51°, crack-free films up to 150 nm thick with ScN fraction as high as 31%, and surface RMS roughness as low as 0.54 nm over 400μm2, which follow the morphology of the underlying silicon substrates with a mixed 2D–3D growth mode. The lattice parameters, d33 piezoelectric coefficients, and optical bandgap are measured as a function of Sc composition. With increasing Sc composition, the piezoelectric coefficient is enhanced to as high as 34.7 pm/V.
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