Influence of the epitaxial composition on N-face GaN KOH etch kinetics determined by ICP-OES
Date
2020Abstract
Roughening by anisotropic etching of N-face gallium nitride is the key aspect in today’s production of blue and white light emitting
diodes (LEDs). Both surface area and number of surface angles are increased, facilitating light outcoupling from the LED chip.
The structure of a GaN layer stack grown by metal organic chemical vapour deposition (MOCVD) was varied in the unintentionally
doped u-GaN bulk region. Different sequences of 2D and 3D grown layers led to a variation in dislocation density, which was
monitored by photoluminescence microscopy (PLM) and X-ray diffraction (XRD). Thin-film processing including laser lift off
(LLO) was applied. The influence of epitaxial changes on the N-face etch kinetics was determined in aqueous KOH solution at
elevated temperature. Inductively-coupled plasma optical emission spectroscopy (ICP-OES) was used to measure the etch progress
in small time increments with high precision. Thereby, the disadvantages of other techniques such as determination of weight loss
or height difference were overcome, achieving high accuracy and reproducibility.