Article ID Journal Published Year Pages File Type
1790295 Journal of Crystal Growth 2014 5 Pages PDF
Abstract

•We study early growth stages of GaN (AlN) on C and Si terminated 4H-SiC surfaces.•We determine energetics of GaN (AlN) monolayer formation on 4H-SiC{0001} surfaces.•We find the most stable energetically adsorption sites of N, Ga, and Al adatoms.•We figure out possible 4H-SiC/GaN interface reconstruction patterns.•These studies shed light on the physicochemistry of a SiC/nitride interface.

We present results of our studies dealing with the early stages of growth of Ga–N and Al–N monolayers on the 4H-SiC {0001}{0001} substrates. These studies are based on first principles calculation in the framework of density functional theory. Some stable adsorption sites are found for Ga, N, and Al atoms on the 4H-SiC {0001}{0001} surfaces. These are in particular T4 for Ga and N atoms adsorbed on the (0001) surface and on top of the topmost surface atom for Al at the 1 ML coverage. In the case of (0001¯) surface, it is the ‘on-top’ position for Ga and Al, as well as T4 for N atoms, at the same coverage. Further, the energetics of the GaN and AlN monolayers formation on the SiC substrate is investigated. It can be stated that the best 4H-SiC substrate termination allowing the single unreconstructed GaN bilayer growth is the (0001) one. Possible charge compensation patterns of interfaces are proposed together with the discussion on their stability. They involve the mixed Ga–C/SiC{0001} or Ga-Si/SiC{0001} layers that in consequence lead to the adsorption energy gain for nitrogen.

Related Topics
Physical Sciences and Engineering Physics and Astronomy Condensed Matter Physics
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