Scientific Reports (Dec 2020)

Effectiveness of selective area growth using van der Waals h-BN layer for crack-free transfer of large-size III-N devices onto arbitrary substrates

  • Soufiane Karrakchou,
  • Suresh Sundaram,
  • Taha Ayari,
  • Adama Mballo,
  • Phuong Vuong,
  • Ashutosh Srivastava,
  • Rajat Gujrati,
  • Ali Ahaitouf,
  • Gilles Patriarche,
  • Thierry Leichlé,
  • Simon Gautier,
  • Tarik Moudakir,
  • Paul L. Voss,
  • Jean Paul Salvestrini,
  • Abdallah Ougazzaden

DOI
https://doi.org/10.1038/s41598-020-77681-z
Journal volume & issue
Vol. 10, no. 1
pp. 1 – 9

Abstract

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Abstract Selective Area van der Waals Epitaxy (SAVWE) of III-Nitride device has been proposed recently by our group as an enabling solution for h-BN-based device transfer. By using a patterned dielectric mask with openings slightly larger than device sizes, pick-and-place of discrete LEDs onto flexible substrates was achieved. A more detailed study is needed to understand the effect of this selective area growth on material quality, device performance and device transfer. Here we present a study performed on two types of LEDs (those grown on h-BN on patterned and unpatterned sapphire) from the epitaxial growth to device performance and thermal dissipation measurements before and after transfer. Millimeter-size LEDs were transferred to aluminum tape and to silicon substrates by van der Waals liquid capillary bonding. It is shown that patterned samples lead to a better material quality as well as improved electrical and optical device performances. In addition, patterned structures allowed for a much better transfer yield to silicon substrates than unpatterned structures. We demonstrate that SAVWE, combined with either transfer processes to soft or rigid substrates, offers an efficient, robust and low-cost heterogenous integration capability of large-size devices to silicon for photonic and electronic applications.