Fabrication of free-standing GaN substrates using electrochemically formed porous separation layers

Masafumi Yokoyama, F. Horikiri, Hisashi Mori, Taichiro Konno, H. Fujikura
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Abstract

We have developed a pore-assisted separation (PAS) method for the fabrication of free-standing GaN substrates, where bulk GaN crystals were separated from seed GaN templates at electrochemically formed porous layers. The pore size was controlled by the electrochemical process conditions and must be greater than 100 nm to realize separation within whole wafers. A 2-inch free-standing GaN substrate having a low dislocation density of 2.7×106 cm−2 was realized by growth of an 800-μm-thick GaN layer on the porous GaN template. A 3-inch free-standing GaN substrate was also fabricated by the PAS method, indicating its good scalability.
利用电化学形成的多孔分离层制造独立的氮化镓衬底
我们开发了一种用于制造独立氮化镓衬底的孔隙辅助分离(PAS)方法,在这种方法中,块状氮化镓晶体与种子氮化镓模板在电化学形成的多孔层上分离。孔隙大小由电化学工艺条件控制,必须大于 100 纳米才能在整个晶片内实现分离。通过在多孔氮化镓模板上生长 800 微米厚的氮化镓层,实现了位错密度低至 2.7×106 厘米-2 的 2 英寸独立氮化镓衬底。利用 PAS 方法还制造出了 3 英寸的独立 GaN 衬底,这表明该方法具有良好的可扩展性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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