%0 Journal Article
%T Electrical Characterization of RF Reactive Sputtered p每Mg-InxGa1ˋxN/n每Si Hetero-Junction Diodes without Using Buffer Layer
%J Coatings | An Open Access Journal from MDPI
%D 2019
%R https://doi.org/10.3390/coatings9110699
%X The modeling of p每In xGa 1ˋxN/ n每Si hetero junction diodes without using the buffer layer were investigated with the ※top-top§ electrode. The p每Mg-GaN and p每Mg-In 0.05Ga 0.95N were deposited directly on the n每Si (100) wafer by the RF reactive sputtering at 400 ∼C with single cermet targets. Al and Pt with the square size of 1 mm 2 were used for electrodes of p每In xGa 1ˋxN/ n每Si diodes. Both devices had been designed to prove the p-type performance of 10% Mg-doped in GaN and InGaN films. By Hall measurement at the room temperature (RT), the holes concentration and mobility were determined to be Np = 3.45 ℅ 10 16 cm ˋ3 and 米 = 145 cm 2/V﹞s for p每GaN film, Np = 2.53 ℅ 10 17 cm ˋ3, and 米 = 45 cm 2/V﹞s for p每InGaN film. By the I每V measurement at RT, the leakage currents at ˋ5 V and turn-on voltages were found to be 9.31 ℅ 10 ˋ7 A and 2.4 V for p每GaN /n每Si and 3.38 ℅ 10 ˋ6 A and 1.5 V for p每InGaN /n每Si diode. The current densities at the forward bias of 20 V were 0.421 and 0.814 A﹞cm ˋ2 for p每GaN /n每Si and p每InGaN /n每Si devices. The electrical properties were measured at the temperature range of 25 to 150 ∼C. By calculating based on the TE mode, Cheungs＊ and Norde methods, and other parameters of diodes were also determined and compared. View Full-Tex
%U https://www.mdpi.com/2079-6412/9/11/699