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@ARTICLE{GutirrezCuesta:646128,
      author       = {Gutiérrez-Cuesta, Clara and del Campo, Adolfo and Rojo,
                      Víctor and Marco, José F. and Cojocariu, Iulia and
                      Szpytma, Marcin and Fevola, Giovanni and Mascaraque,
                      Arantzazu and Menteş, Tevfik Onur and Locatelli, Andrea and
                      Quesada, Adrián and de la Figuera, Juan and Prieto, José
                      Emilio},
      title        = {{A}nisotropic growth of ferberite ({F}e{WO}$_4$ ) on
                      {W}(110) by high-temperature oxygen-assisted molecular beam
                      epitaxy},
      journal      = {Applied surface science},
      volume       = {723},
      issn         = {0169-4332},
      address      = {Amsterdam},
      publisher    = {Elsevier},
      reportid     = {PUBDB-2026-00728},
      pages        = {165655 -},
      year         = {2026},
      note         = {cc-by},
      abstract     = {We report on the growth of nanowires of ferberite
                      (FeWO$_4$) by high-temperature oxygen-assisted molecular
                      beam epitaxy on W(110). This multifunctional material has
                      promising applications in different fields. The wires extend
                      for several millimeters in length, with widths in the
                      hundreds and heights in the tens of nanometers. We have
                      monitored the growth process by real-time low-energy
                      electron microscopy and characterized the wires in-situ by
                      low-energy electron microscopy and laterally-resolved X-ray
                      absorption and photoelectron spectroscopies. Further
                      analysis was performed ex-situ by atomic force and optical
                      microscopies as well as by Raman spectroscopy. The growth of
                      ferberite on W(110) was possible by dosing iron in a
                      molecular oxygen atmosphere likely due to the formation of
                      highly mobile WO$_x$ units that can be incorporated into the
                      anisotropic wolframite structure, which in turn is
                      responsible for the highly anisotropic growth. We propose
                      that the same method may be used for the growth of other
                      tungstate or related compounds.},
      cin          = {FS-PETRA},
      ddc          = {660},
      cid          = {I:(DE-H253)FS-PETRA-20140814},
      pnm          = {632 - Materials – Quantum, Complex and Functional
                      Materials (POF4-632)},
      pid          = {G:(DE-HGF)POF4-632},
      experiment   = {EXP:(DE-MLZ)External-20140101},
      typ          = {PUB:(DE-HGF)16},
      doi          = {10.1016/j.apsusc.2025.165655},
      url          = {https://bib-pubdb1.desy.de/record/646128},
}