The electronic structure, chemical bonding, and interface component in ZrN-AlN nanocomposites formed byphase separation during thin film deposition of metastable Zr1−xAlxN (x = 0.0, 0.12, 0.26, 0.40) are investigatedby resonant inelastic x-ray scattering, x-ray emission, and x-ray absorption spectroscopy and compared to firstprinciples calculations including transitions between orbital angular momentum final states. The experimentalspectra are compared with different interface-slab model systems using first principles all-electron full-potentialcalculations where the core states are treated fully relativistically. As shown in this work, the bulk sensitivity andelement selectivity of x-ray spectroscopy enables one to probe the symmetry and o...
International audienceUsing a variable-composition ab initio evolutionary algorithm, we investigate ...
The synchrotron x-ray absorption near edge structures (XANES) technique was used in conjunction with...
Structure and mechanical properties of nanoscale multilayers of ZrN/Zr0.63Al0.37N grown by reactive ...
The electronic structure, chemical bonding, and interface component in ZrN-AlN nanocomposites formed...
Nanostructure formation via surface-diffusion-mediated segregation of ZrN and AIN in Zr1-xAlxN films...
Metastable super-saturated Zr1_xAlxN alloys tend to phase separate into the equilibrium cubic (c) Zr...
Nanocomposite films of ZrN–Me (Me=Ag, Au, or Pd) were prepared using reactive unbalanced magnetron s...
Nanocomposite films of ZrN-Me (Me=Ag, Au, or Pd) were prepared using reactive unbalanced magnetron s...
Wear resistant hard films comprised of cubic transition metal nitride (c-TMN) and metastable c-AlN w...
The chemical bonding in an epitaxial ZrB2 film is investigated by Zr K-edge (1s) X-ray absorption ne...
The variation in local atomic structure and chemical bonding of ZrHx (x=0.15, 0.30, 1.16) magnetron ...
Introduction of alloying elements often alters properties of materials. In the technologically signi...
Interfaces play a crucial role in determining the ultimate properties of nanoscale structures. Howev...
ABSTRACT: Lightweight mechanically strong composite Al/BN nanotube materials may find applications i...
By means of first principles calculations, Zr-Al-C nanolaminates have been studied in the aspects of...
International audienceUsing a variable-composition ab initio evolutionary algorithm, we investigate ...
The synchrotron x-ray absorption near edge structures (XANES) technique was used in conjunction with...
Structure and mechanical properties of nanoscale multilayers of ZrN/Zr0.63Al0.37N grown by reactive ...
The electronic structure, chemical bonding, and interface component in ZrN-AlN nanocomposites formed...
Nanostructure formation via surface-diffusion-mediated segregation of ZrN and AIN in Zr1-xAlxN films...
Metastable super-saturated Zr1_xAlxN alloys tend to phase separate into the equilibrium cubic (c) Zr...
Nanocomposite films of ZrN–Me (Me=Ag, Au, or Pd) were prepared using reactive unbalanced magnetron s...
Nanocomposite films of ZrN-Me (Me=Ag, Au, or Pd) were prepared using reactive unbalanced magnetron s...
Wear resistant hard films comprised of cubic transition metal nitride (c-TMN) and metastable c-AlN w...
The chemical bonding in an epitaxial ZrB2 film is investigated by Zr K-edge (1s) X-ray absorption ne...
The variation in local atomic structure and chemical bonding of ZrHx (x=0.15, 0.30, 1.16) magnetron ...
Introduction of alloying elements often alters properties of materials. In the technologically signi...
Interfaces play a crucial role in determining the ultimate properties of nanoscale structures. Howev...
ABSTRACT: Lightweight mechanically strong composite Al/BN nanotube materials may find applications i...
By means of first principles calculations, Zr-Al-C nanolaminates have been studied in the aspects of...
International audienceUsing a variable-composition ab initio evolutionary algorithm, we investigate ...
The synchrotron x-ray absorption near edge structures (XANES) technique was used in conjunction with...
Structure and mechanical properties of nanoscale multilayers of ZrN/Zr0.63Al0.37N grown by reactive ...