SLEIGHT's research projects

The Manutech-SLEIGHT Graduate School cultivates a fertile ground for researchers who wish to undertake ambitious, transdisciplinary research projects whose objectives respond to major societal issues of the 21th century.
Each project is selected by the Graduate School trough Calls for projects or thesis certification, and in line with at least one of the 3 scientific axes of Manutech-SLEIGHT.

The funded projects are at the interaction between:

• Physics – Biology
• Optics - Materials
• Biology – Artificial Intelligence
• Surface Engineering - Artificial Intelligence

Axis 1

• DENSIFY

  
  

  Dense structures on the nanoscale

• FLAME

  
  

  Femto-second Laser irradiation of Metals

• HyTex

  
  

  Influence of ultrafast laser texturing on hydogen uptake and diffusion in metallic materials

• MORPHOSURF

  
  

  Surface Morphology at the nanometric scale by temporal and polarization control of ultrashort laser pulses.

• QuickSilica

  
  

  Ultrafast electron-molecular dynamics coupling in photoexcited silica glass

• SAFE

  
  

  Study of the biological behaviour of PVD thin film metallic glasses: effect of an ultrashort laser treatment

• SMOB

  
  

  In situ radioscopy of the melt pool morphology for selective beam melting

Axis 2

• BioSpec

  
  

  Quantitative analysis of biomarkers by spectrometry

• DENT'IN

  
  

  Predicting the Reflectance and Transmittance of Translucent Dental Resins

• DIONISOS

  
  

  Diffusion Of Nanoparticles On Surfaces

• MALBOT

  
  

  MAchine Learning for high definition BOne digital Twin

• MANOUS

  
  

  Intravascular manometry by vector Doppler ultrasound

• PGML

  
  

  Physics-Guided Machine Learning

• PIONEER

  
  

  oPtImal cOntrol magNetic resonance Elastography : application to livEr with hemochRomatosis

• QUANTRI

  
  

  Quantitative identification of physical characteristics of solid interfaces correlated with the tribological properties

• XDeepCell

  
  

  Explainable deep models in cell imaging: application to the analysis of structural changes in human cells for diagnostic purposes

Axis 3

• COUPLES

  
  

  Thin passive films characterization by surface plasmon resonance

• EAGLE

  
  

  Eye Anterior segment Laser Engineering

• EMIL

  
  

• FAST-MED

  
  

  Additive manufacturing by stereolithography of tough ceramics for medical application

• LASIMP

  
  

  Femtoseconde LASer for dental IMPlants multifonctionnal texturing

• MONBONE

  
  

  SPR-based sensors for monitoring in vitro bone models

• MOTOM

  
  

  Magnetic field steering Of the Thermo-chromic behavior Of Micro-structured surfaces

• ORNALAS

  
  

  Periodic Van Der Waals Origamis by Ultrafast Laser Nanotexturing