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INSTITUT DE PHYSIQUE ET DE CHIMIE DES MATERIAUX DE STRASBOURG
  • Laboratory
    • Introduction
    • Organigram
    • General Services
    • Quality policy
    • Publications
    • Valorisation
    • News
    • Events
    • Some figures
    • Addept
    • IPCMS’ 30th Anniversary
  • Departments
    • Inorganic Materials Chemistry (DCMI)
    • Organic Materials (DMO)
    • Magnetic Objects on the NanoScale (DMONS)
    • Ultrafast Optics and Nanophotonics (DON)
    • Surfaces and Interfaces (DSI)
  • Teaching
    • Formations
    • Ecole-Doctorale
    • Master Condensed Matter and Nanophysics
    • Master Materials and Nanosciences (MNS)
    • Master of Science of Imaging, Robotics and Biomedical Engineering (IRIV)
    • Masters ” Chemistry”
    • International Graduate School QMat
  • EXCELLENCE Programs
    • Union
    • UTEM
    • NIE
  • Partnerships
    • CARMEN
    • Carnot Mica Institut
    • Start’Up SuperBranche
    • Material and Nanoscience Federation of Alsace
    • International Center for Frontier Research in Chemistry
    • International Relationship
      • LIA LaFICS
      • French-German Graduate School
      • Rhin Solar
  • Facilities
    • Nanofab
    • Electron Microscopy
    • X-ray diffraction platform
    • Optical Characterization
    • Scientific computing
Navigation
Inorganic Materials Chemistry (DCMI) Research teams

Research teams

Functionalized<BR /> nanoparticles
Functionalized
 nanoparticles
Thin<BR /> film oxides
Thin
 film oxides
Organic-inorganic<BR /> hybrids
Organic-inorganic
 hybrids
Modelling<BR /> at the atomic scale
Modelling
 at the atomic scale

Our activities are focused on preparing inorganic materials and hybrid materials for magnetic, optical or biomedical properties. The elaboration concepts rely on the association of entities of different nature, by chemical or physical ways. Atomic scale modelisation tools are also used to characterize specific classes of systems.

 We are interested in controlling the size and composition of oxide nanoparticles and grafting designed molecules at the oxide surfaces, designing and elaborating oxide thin films for spintronics, organising from the nano to the meso scale, designing hybrid organic – inorganic functional materials, investigating the chemistry-biology interface, elucidating the atomic scale properties of disordered materials.

Support for research
Support for research

Institut de Physique et de Chimie des Matériaux de Strasbourg

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