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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Materials Map under construction

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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1.080 Topics available

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977 Locations available

693.932 PEOPLE
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in Cooperation with on an Cooperation-Score of 37%

Topics

Publications (7/7 displayed)

  • 2024Boron-induced transformation of ultrathin Au films into two-dimensional metallic nanostructures6citations
  • 2023MAXPEEM : a spectromicroscopy beamline at MAX IV laboratory17citations
  • 2019Observing growth under confinement8citations
  • 2012One-Dimensional Corrugation of the h-BN Monolayer on Fe(110)70citations
  • 2012Controllable p-doping of graphene on Ir(111) by chlorination with FeCl(3).38citations
  • 2012Formation and Structure of Graphene Waves on Fe(110)128citations
  • 2012Controllable oxidation of h-BN monolayer on Ir(111) studied by core-level spectroscopies47citations

Places of action

Chart of shared publication
Taketsugu, Tetsuya
1 / 1 shared
Lyalin, Andrey
1 / 1 shared
Preobrajenski, Alexei
6 / 12 shared
Lee, Tien-Lin
1 / 12 shared
Tsitsvero, Mikhail
1 / 1 shared
Duncan, David A.
1 / 4 shared
Sarpi, Brice
1 / 5 shared
Niu, Yuran
1 / 17 shared
Golias, Evangelos
1 / 8 shared
Zakharov, Alexei
3 / 19 shared
Struzzi, Claudia
1 / 4 shared
Zhu, Lin
1 / 4 shared
Persson, Axel R.
1 / 11 shared
Lundgren, Edvin
3 / 50 shared
Lipé, Weronica
1 / 1 shared
Harlow, Gary S.
1 / 8 shared
Evertsson, Jonas
1 / 9 shared
Wallenberg, Reine
1 / 34 shared
Drnec, Jakub
1 / 15 shared
Wiegmann, Tim
1 / 3 shared
Mikkelsen, Anders
2 / 44 shared
Ng, May Ling
2 / 2 shared
Martensson, N.
2 / 3 shared
Vyalikh, D.
1 / 3 shared
Mårtensson, Nils
2 / 6 shared
Simonov, Konstantin
1 / 6 shared
Vinogradov, A. S.
3 / 3 shared
Generalov, A. V.
1 / 2 shared
Laubschat, C.
1 / 2 shared
Rusz, J.
1 / 2 shared
Simonov, K. A.
2 / 2 shared
Eriksson, O.
1 / 13 shared
Kocevski, V.
1 / 1 shared
Chart of publication period
2024
2023
2019
2012

Co-Authors (by relevance)

  • Taketsugu, Tetsuya
  • Lyalin, Andrey
  • Preobrajenski, Alexei
  • Lee, Tien-Lin
  • Tsitsvero, Mikhail
  • Duncan, David A.
  • Sarpi, Brice
  • Niu, Yuran
  • Golias, Evangelos
  • Zakharov, Alexei
  • Struzzi, Claudia
  • Zhu, Lin
  • Persson, Axel R.
  • Lundgren, Edvin
  • Lipé, Weronica
  • Harlow, Gary S.
  • Evertsson, Jonas
  • Wallenberg, Reine
  • Drnec, Jakub
  • Wiegmann, Tim
  • Mikkelsen, Anders
  • Ng, May Ling
  • Martensson, N.
  • Vyalikh, D.
  • Mårtensson, Nils
  • Simonov, Konstantin
  • Vinogradov, A. S.
  • Generalov, A. V.
  • Laubschat, C.
  • Rusz, J.
  • Simonov, K. A.
  • Eriksson, O.
  • Kocevski, V.
OrganizationsLocationPeople

article

Observing growth under confinement

  • Persson, Axel R.
  • Lundgren, Edvin
  • Lipé, Weronica
  • Harlow, Gary S.
  • Evertsson, Jonas
  • Wallenberg, Reine
  • Drnec, Jakub
  • Vinogradov, Nikolay
  • Wiegmann, Tim
Abstract

<p>Using a micro-focused high-energy X-ray beam, we have performed in situ time-resolved depth profiling during the electrochemical deposition of Sn into an ordered porous anodic alumina template. Combined with micro-diffraction we are able to follow the variation of the structure at the atomic scale as a function of depth and time. We show that Sn initially deposits at the bottom of the pores, and forms metallic nanopillars with a preferred [100] orientation and a relatively low mosaicity. The lattice strain is found to differ from previous ex situ measurements where the Sn had been removed from the porous support. The dendritic nature of the pore bottom affects the Sn growth mode and results in a variation of Sn grain size, strain and mosaicity. Such atomic scale information of nano-templated materials during electrodeposition may improve the future fabrication of devices.</p>

Topics
  • porous
  • impedance spectroscopy
  • pore
  • grain
  • grain size
  • electrodeposition