期刊
SEMICONDUCTOR SCIENCE AND TECHNOLOGY
卷 36, 期 12, 页码 -出版社
IOP Publishing Ltd
DOI: 10.1088/1361-6641/ac3372
关键词
ICP dry etching; e-beam evaporation; sputtering; electroplating; MBE growth; Ni hard mask
类别
资金
- Office of Naval Research (ONR) Multidisciplinary University Research Initiatives (MURI) Program entitled, 'Leveraging a New Theoretical Paradigm to Enhance Interfacial Thermal Transport In Wide Bandgap Power Electronics' [N00014-17-S-F006]
- Air Force Office of Scientific Research [FA9550-21-1-0318]
A highly selective cascaded Ni hard mask was developed, suitable for the formation of deep vertical mesas for high-power devices, achieving high selectivity and undamaged GaN surface morphology. Different methods of applying patterned Ni hard masks were studied for their effects on GaN etch rate and selectivity, with the cascaded Ni hard mask method reaching 100% yield.
A highly selective cascaded Ni hard mask without stress and film damage issues suitable for the formation of deep vertical mesas for high-power devices is presented. A Cl-2/BCl3/Ar inductively coupled plasma dry etch was used to investigate the effect of photoresist, and patterned Ni hard masks applied via four different methods on the etch rate of GaN, and mask selectivity. Strain in the e-beam only deposited Ni films produced low yield due to poor adhesion. Electroplated Ni showed rough mask morphology. Sputtered Ni left damage/chemically reacted layers on the GaN under the mask. A cascaded 50 nm e-beam evaporated Ni followed by 2 mu m of sputtered Ni mask method improved the yield to 100%, achieved high selectivity and retained an undamaged GaN surface morphology. The cascaded Ni hard mask successfully achieved GaN mesas up to 13 mu m. The dry etching rates of the photoresist, GaN and Ni masks were 250, 275 and 13 nm min(-1), respectively giving an etch selectivity of the GaN/Ni hard mask of similar to 20, much higher than the etch selectivity of 1.1 for the photoresist. Furthermore, yield of the cascaded Ni hard mask was 100% making it suitable for commercial high-power electronics.
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