EMMD - Electrochemistry, Molecular Materials and Devices

EMMD (Electrochemistry, Molecular Materials and Devices) research activities are devoted to molecular materials, from molecules to materials and from materials to devices. Electrochemical techniques are used to synthesize, to immobilize and to detect chemical or biological species. The synthetic aspect relates to the synthesis and functionalization of macrocycles (porphyrins, phthalocyanines…) and polymers. The analytical aspect 1) exploits the redox properties of compounds or sensitive layers (biomaterials, conducting polymers, charge-transfer complexes, …) for the characterization and the detection of biomolecules or chemical pollutants in sensor devices; 2) to apprehend reaction mechanism of molecular processes. Our projects are focused on applications in the fields of environment, health and food industry.

KARACAOGLAN Gizem Voir la fiche profil en français Français (FR)

image-profil
  • KARACAOGLAN Gizem
  • Statut :
  • Team : OCS
  • Function : PhD students
  • Tags : Catalysis, Coordination chemistry, Organometallic chemistry
  • Address :

    ICMUB Institut de Chimie Moléculaire de l'Université de Bourgogne
    Bât. MIRANDE - Aile B - Bureau B-321
    9 Avenue Alain Savary
    21000 Dijon - France

  • Tél : (+33) 380 393 680
  • gizem.karacaoglan@u-bourgogne.fr

2022-present: PhD innovative nanocatalysts for the release of H2 from a safe solid storage source (Pr HIERSO), University of Burgundy
2019-2021: Master Advanced Materials: Innovative Recycling (AMIR), University of Bordeaux
2016-2019: Franco-German Bachelor of Chemistry Regio Chimica, University of Upper Alsace

Synthesis, characterization and catalytic studies of new organometallic nanoparticles for the release of H2 from ammonia-borane.
Synthesis under inert atmosphere in a glovebox.
Characterization by XPS, TEM, WAXS, ICP-AES, NMR, GC-MS.

SCF 2023 Congress (Nantes, France), Poster session: Innovative Nanocatalysts for the Release of H2 from a Safe Solid Storage Source (awarded Best Poster in the Catalysis division)