-
GRADUATE STUDIES
- • STUDYING AT MANUTECH SLEIGHT
-
MSc in Optics, Image, Vision, Multimedia (OIVM)
-
iPSRS - Intelligent Photonics for Security, Reliability, Sustainability and Safety
- PSRS - Partner universities
- RADMEP - Radiation and its Effects on MicroElectronics and Photonics Technologies
- COSI - Computational Colour and Spectral Imaging
- IMLEX - Imaging & Light in Extended Reality
- AIMA - Advanced Imaging & Material Appearance
- PE - Photonics Engineering
-
iPSRS - Intelligent Photonics for Security, Reliability, Sustainability and Safety
- MSc in Computer Science
- MSc in Health Engineering
- Engineering schools' research tracks
- Doctoral studies
- Training through research
- Opportunities
- Admission and aid
- OPTICA student chapter
-
RESEARCH & INNOVATION
-
SCIENTIFIC EVENTS
- • News and about
-
The SLEIGHT Science Events
- SSE #13 - SLEIGHT in 2025
- SSE #12 - Imaging in Manutech-SLEIGHT
- SSE #11 - SLEIGHT in 2024
- SSE #10 - Sustainable Surface Engineering
- SSE #09 - SLEIGHT in 2023
- SSE #08 - Photonics for Health
- SSE #07 - SLEIGHT in 2022
- SSE #06 - Machine Learning
- SSE #05 - SLEIGHT in 2021
- SSE #03 - SLEIGHT in 2020
- SSE #02 - Material Appearance
- SSE #01 - Topics and stakeholders
- Manutech-SLEIGHT Awards
- Scientific conferences
- Events in partnership with Manutech-SLEIGHT
- CAMPUS LIFE
- ABOUT US
- NEWSLETTER
You are here : EUR MANUTECH SLEIGHT
-
Partager cette page
PhD
PhD offer: The Hubert Curien lab is seeking a new PhD student to work on the ULTRACHEM project
On The September 12, 2023
The Laser-Matter Interaction team of the Hubert Curien lab is seeking its next PhD student to work on the ULTRACHEM research project, funded by the Manutech-SLEIGHT Graduate School
SUMMARY
Name of the project: ULTRACHEM - Ultrafast laser interaction for chemical and topological functionalization of surfaces
The goal of this work is to exploit ultrafast laser-matter interaction to generate new surface functionalization by not only creating topographical texturation but also by modifying and controlling the chemical state of the irradiated substrate, in particular oxidation processes and stoichiometry modifications in the case of alloys.
The goal of this work is to exploit ultrafast laser-matter interaction to generate new surface functionalization by not only creating topographical texturation but also by modifying and controlling the chemical state of the irradiated substrate, in particular oxidation processes and stoichiometry modifications in the case of alloys.
INFO
Funding: 3-year scholarship funded by the Manutech-SLEIGHT Graduate School
Duration: January 2024 – December 2026 (the starting and ending dates can be discussed)
Consortium:
Duration: January 2024 – December 2026 (the starting and ending dates can be discussed)
Consortium:
- Hubert Curien Laboratory (LabHC), Université Jean Monnet Saint-Étienne, France
- Georges Friedel Laboratory (LGF), École des Mines de Saint-Étienne, France
- Nexus for Quantum Technologies Institute - NEXQT (previously known as the Center for Research in Photonics - CRPuO), University of Ottawa, Canada
CONTACT
Pr Florence Garrelie: florence.garrelie@univ-st-etienne.frAssoc. Pr Florent Bourquard: florent.bourquard@univ-st-etienne.fr
DOWNLOAD THE OFFER
To read as well
- 18 JANPhD offer: Mathieu Hébert (LabHC) and Damien Muselet (LabHC) are seeking a PhD candidate
The Image team of the Hubert Curien laboratory is recruiting a PhD candidate to work on surfaces gloss measurement
- 16 OCTPhD offer: the SAINBIOSE lab seeks their new PhD student to work on the NANOTRAP project
The SAINBIOSE lab, in partnership with LTDS and the Hubert Curien lab, is seeking its new PhD student to work on the NANOTRAP research project, funded by the Manutech-SLEIGHT Graduate School.
- 12 SEPPhD offer: The Hubert Curien lab is seeking a new PhD student to work on the ULTRACHEM project
The Laser-Matter Interaction team of the Hubert Curien lab is seeking its next PhD student to work on the ULTRACHEM research project, funded by the Manutech-SLEIGHT Graduate School