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"Freestanding GaN"

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"Freestanding GaN"

Control of Bowing in Free-standing GaN Substrate by Using Selective Etching of N-polar Face
Jin Won Gim, Ho Ki Son, Tea Young Lim, Mi Jai Lee, Jin Ho Kim, Young Jin Lee, Dae Woo Jeon, Jong Hee Hwang, Hae Yong Lee, Dae Ho Yoon
J Electr Electron Mater 2016;29(1):30-34.   Published online January 1, 2016
In this paper, we report that selective etching on N-polar face by EC (electro-chemical)-etching effect on the reduction of bowing and strain of FS (free-standing)-GaN substrates. We applied the EC-etching to concave and convex type of FS-GaN substrates. After the EC-etching for FS-GaN, nano porous structure was formed on N-polar face of concave and convex type of FS-GaN. Consequently, the bowing in the convex type of FS-GaN substrate was decreased but the bowing in the concave type of FS-GaN substrate was increased. Furthermore, the FWHM (full width at half maximum) of (1 0 2) reflection for the convex type of FS-GaN was significantly decreased from 601 to 259 arcsec. In the case, we confirmed that the EC-etching method was very effective to reduce the bowing in the convex type of FS-GaN and the compressive stress in N-polar face of convex type of FS-GaN was fully released by Raman measurement.
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Regular Paper : Effect of the Control of Bowing in Free-standing GaN by Mechanical Polishing
Jinwon Gim, Hoki Son, Tae Young Lim, Mijai Lee, Jin Ho Kim, Dae Woo Jeon, Jonghee Hwang, Jung Young Jung, Hae Kon Oh, Jin Hun Kim, Youngjun Choi
J Electr Electron Mater 2015;28(12):776-780.   Published online December 1, 2015
In this paper, we have studied the effect of mechanical polishing to Ga-polar face for reducing the wafer bowing and strain in free-standing GaN. After the mechanical polishing to Ga-polar face, the bowing of the free-standing GaN substrate significantly decreased with increasing the size of diamond slurry, and eventually changed the bowing direction from concave to convex. Furthermore, the full width at half maximum (FWHM) of high-resolution X-ray diffraction (HR-XRD) were decreased, especially the FWHM of (1 0 2) reflection for 1.0 μm size of diamond slurry was significantly decreased from 630 to 203 arcsec. In the case, we confirmed that the compressive strain in Ga-polar face was fully released by Raman measurement.
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