Surface Photochemical Corrosion as a Mechanism for Fast Degradation of InGaN UV Laser Diodes.
Lucja MaronaPrzemek WisniewskiMarek WzorekJulita Smalc-KoziorowskaSzymon GrzankaAgata Bojarska-CieslinskaDario SchiavonSzymon StanczykAndrzej CzerwinskiTomasz CzyszanowskiPiotr PerlinPublished in: ACS applied materials & interfaces (2020)
We studied degradation mechanisms of ultraviolet InGaN laser diodes emitting in the UVA range. Short wavelength nitride devices are subjected to much faster degradation, under the same packaging and testing conditions, than their longer wavelength counterparts. Transmission electron microscopy analysis of the degraded laser diodes showed pronounced damage to facets in the area of the active layer (waveguide, quantum wells, and electron blocking layer). Energy-dispersive X-ray spectroscopy showed that the active layers were heavily oxidized, forming a compound close in composition to Ga2O3 with proportional addition of Al in the respective area. The oxidation depth was roughly proportional to the intensity of the optical field. We propose UV-light-induced water splitting on a semiconductor surface as a mechanism of the oxidation and degradation of these devices.
Keyphrases
- light emitting
- electron microscopy
- high resolution
- high speed
- pet ct
- oxidative stress
- magnetic resonance imaging
- molecular dynamics
- computed tomography
- high intensity
- quantum dots
- ionic liquid
- visible light
- solid phase extraction
- mass spectrometry
- solid state
- nitric oxide
- gas chromatography mass spectrometry
- gold nanoparticles