Materials Map

Discover the materials research landscape. Find experts, partners, networks.

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The Materials Map is an open tool for improving networking and interdisciplinary exchange within materials research. It enables cross-database search for cooperation and network partners and discovering of the research landscape.

The dashboard provides detailed information about the selected scientist, e.g. publications. The dashboard can be filtered and shows the relationship to co-authors in different diagrams. In addition, a link is provided to find contact information.

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The Materials Map is still under development. In its current state, it is only based on one single data source and, thus, incomplete and contains duplicates. We are working on incorporating new open data sources like ORCID to improve the quality and the timeliness of our data. We will update Materials Map as soon as possible and kindly ask for your patience.

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Deparis, Christiane

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in Cooperation with on an Cooperation-Score of 37%

Topics

Publications (3/3 displayed)

  • 2023Lasing in a ZnO waveguide: Clear evidence of polaritonic gain obtained by monitoring the continuous exciton screening2citations
  • 2021Epitaxial Zn3N2 thin films by molecular beam epitaxy: Structural, electrical, and optical properties5citations
  • 2020Why is it difficult to grow spontaneous ZnO nanowires using molecular beam epitaxy?4citations

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Chart of shared publication
Zuñiga-Pérez, Jesús
1 / 1 shared
Leymarie, Joël
1 / 5 shared
Médard, François
1 / 1 shared
Hermet, Léa
1 / 1 shared
Mihailovic, Martine
1 / 1 shared
Disseix, Pierre
1 / 1 shared
Bouchoule, Sophie
1 / 2 shared
Réveret, François
1 / 3 shared
Kreyder, Geoffrey
1 / 1 shared
Bachelet, Romain
1 / 12 shared
Lichtensteiger, Céline
1 / 10 shared
John, Philipp Maximilian
1 / 2 shared
Grundmann, Marius
1 / 32 shared
Zuniga-Perez, Jesus
1 / 2 shared
Hugues, M.
1 / 2 shared
Khalfioui, M. Al
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Saint-Girons, Guillaume
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Welk, Antonia
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Rotella, H.
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Morhain, Christian
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Amiri, Gaelle
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Chauveau, Jean-Michel
1 / 3 shared
Sallet, Vincent
1 / 12 shared
Patriarche, Gilles
1 / 62 shared
Perez, Jesus Zuñiga
1 / 1 shared
Sartel, Corinne
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Chart of publication period
2023
2021
2020

Co-Authors (by relevance)

  • Zuñiga-Pérez, Jesús
  • Leymarie, Joël
  • Médard, François
  • Hermet, Léa
  • Mihailovic, Martine
  • Disseix, Pierre
  • Bouchoule, Sophie
  • Réveret, François
  • Kreyder, Geoffrey
  • Bachelet, Romain
  • Lichtensteiger, Céline
  • John, Philipp Maximilian
  • Grundmann, Marius
  • Zuniga-Perez, Jesus
  • Hugues, M.
  • Khalfioui, M. Al
  • Saint-Girons, Guillaume
  • Welk, Antonia
  • Rotella, H.
  • Morhain, Christian
  • Amiri, Gaelle
  • Chauveau, Jean-Michel
  • Sallet, Vincent
  • Patriarche, Gilles
  • Perez, Jesus Zuñiga
  • Sartel, Corinne
OrganizationsLocationPeople

article

Epitaxial Zn3N2 thin films by molecular beam epitaxy: Structural, electrical, and optical properties

  • Deparis, Christiane
  • Bachelet, Romain
  • Lichtensteiger, Céline
  • John, Philipp Maximilian
  • Grundmann, Marius
  • Zuniga-Perez, Jesus
  • Hugues, M.
  • Khalfioui, M. Al
  • Saint-Girons, Guillaume
  • Welk, Antonia
  • Rotella, H.
Abstract

<jats:p>Single-crystalline Zn3N2 thin films have been grown on MgO (100) and YSZ (100) substrates by plasma-assisted molecular beam epitaxy. Depending on growth conditions, the film orientation can be tuned from (100) to (111). For each orientation, x-ray diffraction and reflection high-energy electron diffraction are used to determine the epitaxial relationships and to quantify the structural quality. Using high-temperature x-ray diffraction, the Zn3N2 linear thermal expansion coefficient is measured with an average of (1.5 ± 0.1) × 10−5 K−1 in the range of 300–700 K. The Zn3N2 films are found to be systematically n-type and degenerate, with carrier concentrations of 1019–1021 cm−3 and electron mobilities ranging from 4 to 388 cm2 V−1 s−1. Low-temperature Hall effect measurements show that ionized impurity scattering is the main mechanism limiting the mobility. The large carrier densities lead to measured optical bandgaps in the range of 1.05–1.37 eV due to Moss–Burstein band filling, with an extrapolated value of 0.99 eV for actual bandgap energy.</jats:p>

Topics
  • impedance spectroscopy
  • mobility
  • x-ray diffraction
  • thin film
  • electron diffraction
  • thermal expansion