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Physico chemistry of solids, thin films, biotechnologies
Applications for micro & nano- technologies, energy, health ...

> Research > Research-NanoMAT

Nanomaterials and advanced nanostructures (NanoMAT)

The activity and expertise of the NanoMAT Team are centred on the chemical synthesis and crystal growth of low-dimensional materials (i.e. ultra-thin films, 2D and nano-lamellar materials, nanowires, nanostructures, …) and of related heterostructures, by focusing on fundamental studies aiming at thoroughly elucidating nucleation and growth mechanisms at work as well as highlighting and controlling their properties on the nanometric local and macroscopic scales.

Axes Thématiques

Our investigation is organised in 5 subjects:

Nanolamellar materials

  MAX phases, ultra-thin films, 2D materials

MXenes: a new family of 2D electron systems obtained by
MAX phase exfoliation.

Structure-property relationships in functional oxides

  • Strain engineering in Cobaltites/manganites thin films
  • Transition metal (Mn, Co, Ni) oxides for redox supercapacitors
  • Resistive Swichting (RS) in metal/complex oxide interfaces


  • 14
    The paper Ultraviolet–visible–near-infrared optical properties of amyloid fibrils shed light on amyloidogenesis " has been published in Nature Photonics
  • 14
    The paper "First-order Raman scattering of rare-earth containing i-MAX single crystals (Mo2/3 RE1/)3AlC, RE= {Nd},{Gd},{Dy},{Ho} " has been published in PHYSICAL REVIEW MATERIALS
  • 04
    The paper "Formation mechanisms of ZnO nanowires on polycrystalline Au seed layers for piezoelectric applications" has been published in Nanotechnology
  • 15
    The paper "Microscopic Mechanisms of Local Interfacial Resistive Switching in LaMnO3+d" has been published in ACS Applied Electronics Materials

Date of update December 17, 2018

  • Tutelle CNRS
  • Tutelle Grenoble INP
Univ. Grenoble Alpes