The effect of periodic delta-doping and modulation-doping on high Al content n-AlxGa1-xN (x = 0.55) epilayers grown by MOCVD has been investigated. Measured by XRD, AFM, contactless sheet resistance, and Hall-effect...The effect of periodic delta-doping and modulation-doping on high Al content n-AlxGa1-xN (x = 0.55) epilayers grown by MOCVD has been investigated. Measured by XRD, AFM, contactless sheet resistance, and Hall-effect tests, 8-doped and modulation-doped n-Alx Ga1-xN have better crystal quality, surface morphology and electrical properties as compared with uniformly-doped n-AlxGa1-xN. These improvements are attributed to the SiNx growth mask induced by δ-doping layers and the dislocation-blocking effect induced by both growth techniques. In addition, due to the broadened doping profile ascribed to enhanced dopant diffusion at high growth temperatures (1150 ℃) ofn-Al0.55 Ga0.45N, modulation-doped n-Al0.55 Ga0.45N has similar properties as 8-doped n-Al0.55 Ga0.45N.展开更多
基金supported by the National High Technology Research and Development Program of China(No.2011AA03 A 111)the National Natural Science Foundation of China(No.61006038)
文摘The effect of periodic delta-doping and modulation-doping on high Al content n-AlxGa1-xN (x = 0.55) epilayers grown by MOCVD has been investigated. Measured by XRD, AFM, contactless sheet resistance, and Hall-effect tests, 8-doped and modulation-doped n-Alx Ga1-xN have better crystal quality, surface morphology and electrical properties as compared with uniformly-doped n-AlxGa1-xN. These improvements are attributed to the SiNx growth mask induced by δ-doping layers and the dislocation-blocking effect induced by both growth techniques. In addition, due to the broadened doping profile ascribed to enhanced dopant diffusion at high growth temperatures (1150 ℃) ofn-Al0.55 Ga0.45N, modulation-doped n-Al0.55 Ga0.45N has similar properties as 8-doped n-Al0.55 Ga0.45N.
