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AS2M/DMA : PhD on the mechanics and psychophysics of tactile perception
MN2S : Characterization of a biochip for SPRI and SERS analysis of extracellular vesicles
Context : Extracellular vesicles (EVs) are nanovesicles emitted by cells. EVs are of interest both in therapeutics, as a vector for active substances, and in diagnostics. These last years, the Nano2BIO team of FEMTO-ST Institute (Besançon) had developed a multiplex biochip to characterize EVs with complementary methods (atomic force microscopy – AFM, surface plasmon resonance imaging- SPRi) [1], [2]. This internship is part of an ANR project to add Raman spectroscopy to the characterization methods. This technique would give molecular information on the composition of the membrane of EVs and its content. As Raman intensity is weak, our goal is to develop a biochip that would enhance the Raman signal (surface enhanced Raman spectroscopy – SERS), while being compatible with AFM and SPRi.
Objectives of the internship :
The M2 internship will be carried out in cooperation with a PhD student working on the development of the biochip. A first version, enabling SERS enhancement, has already been produced. The next step is to produce a version also compatible with SPRI.
Required profile: :
Applications are welcome from students in their 2nd year of a research master’s program or 3rd year of an engineering school. Candidates should have a sound background in physics, experience in optics or plasmonics would be a plus.
Start/duration: internship lasting up to 6 months, starting in January or February 2026
Location: FEMTO-ST institute, 15B avenue des Montboucons, 25000 Besançon
ENERGY : PEM Water Electrolyzers multiscale heterogeneity characterizations and modellin
Host institute: Institute FEMTO-ST which is the largest CNRS-labeled lab in engineering in France. European leading experimental facilities are provided partially by CNRS FCLAB (https://www.fclab.fr/).
Working Conditions:
The PhD will be conducted in FEMTO-ST/FCLAB à Belfort in the framework of the ANR (French National Research Agency) project “Multi-Hero”. The PhD is fully funded by the same ANR grant. The PhD student will work in the SHARPAC research team in which several projects on PEMWE are interacted dynamically.
Applicants’ Profile:
Candidates should possess an educational background in engineering. Experience in hydrogen fuel cell or electrolyzer system design, automation, and testing will be a significant advantage. An ability to work collaboratively in a team setting is essential.
Period: The PhD is for three years and supposed to start in October of 2025.
MIMENTO : Research Engineer in Microtechnology/Lithography_Etching – FEER SAMI Project
Context : The FEMTO-ST Institute (Franche-Comté Electronics, Mechanics, Thermal Science and Optics –Sciences and Technologies, UMR 6174) is a joint research unit under the main supervision of the French National Centre for Scientific Research (CNRS), Marie and Louis Pasteur University (UMLP), the National Engineering School of Mechanics and Microtechnologies (SUPMICROTECH-ENSMM), and the University of Technology of Belfort-Montbéliard (UTBM). The Institute’s strategy is to develop cutting-edge scientific research with both socio-academic and socio-economic impact, based on a collective and responsible dynamic. Today, it brings together more than 750 members, seven research departments, shared services, and research platforms, including the MIMENTO platform (MIcrofabrication for MEchanics, Nanosciences, Thermal Science and Optics). MIMENTO has developed innovative technologies in the framework of research projects in micromechanics, micro-nano-optics, and micro-nano-acoustics. The FEDER SAMI project aims, through collaboration with the MIFHySTO research platform and the company Silmach, to achieve technological developments that will, among other things, facilitate the implementation of plastic injection molding technologies using microfabricated molds developed within MIMENTO.
Mission:
The research engineer will be responsible for developing breakthrough MEMS-type processes within the framework of the FEDER SAMI project. The work will focus in particular on silicon plasma etching technologies for the fabrication of high aspect-ratio structures, SOI-wafer-based processes, HF vapor etching technology, and photolithography techniques. The engineer will collaborate with all project stakeholders and the MIMENTO platform team, in particular the project engineer in charge of MIMENTO’s contribution. [...]
Localization : FEMTO-ST - Plateforme MIMENTO - 15B, Avenue des Montboucons - 25000 Besançon
a CV and cover letter, addressed to Samuel Queste : samuel.queste@femto-st.fr
