%0 Journal Article %A Kehagias, T. %A Kerasiotis, Danis %A Vajpeyi, A.P. %A Hausler, I. %A Neumann, W. %A Georgakilas, A. %A Dimitrakopulos, G.P. %A Komnninou, P. %D 2016 %T Electron microscopy of InGaN nanopillars spontaneously grown on Si(111) substrates %U https://repository.lboro.ac.uk/articles/journal_contribution/Electron_microscopy_of_InGaN_nanopillars_spontaneously_grown_on_Si_111_substrates/9545588 %K untagged %K Mechanical Engineering not elsewhere classified %K Quantum Mechanics %K Condensed Matter Physics %X The mopholological, structural and chemical properties of InxGa1−xN nanopillars directly grown on Si (111) substrates, by molecular beam epitaxy, were investigated employing transmission electron microscopy related techniques. Single crystalline, single phase nanopillars were observed exhibiting a low density of crystal defects, which contribute to good crystal quality. Initial nanostructures merge through subgrain boundaries to form final nanopillars. Energy dispersive X-ray analysis revealed a very low InN mole fraction near the interface with the substrate, owing to high desorption rates from the elevated growth temperature, and gradually higher In incorporation rates near the tips of the nanopillars. This compositional fluctuation is main- tained due to poor segregation of indium adatoms along the c-axis of the nanopillars towards the Si interface. A second species of long and narrow nanopillars was found In-free. %I Loughborough University