FUNCTIONAL ORGANIC NANOASSEMBLIES FOR ULTRAFAST INVESTIGATIONS OF OPTICAL AND MAGNETIC COUPLING
| ABG-139877 | Thesis topic | |
| 2026-07-18 | Public funding alone (i.e. government, region, European, international organization research grant) |
- Chemistry
- Materials science
Topic description
Context. The CEISAM lab seeks talented and motivated students to conduct research works in the field of photo- and magneto-responsive nano-architectures, driving considerable interest in data storage, catalysis and nanomedicine. While most of the studies have been carried on inorganic materials, combining both photo- and magneto-activities within organic architectures remains quite scarce. Moreover, whereas such a coupling has often been investigated at the stationary state, deciphering how magnetic switching could influence the dynamics of photoexcited states, and conversely how light could impact the magnetic properties at short ns and sub-ns timescales, would bring considerable progress in the design of performing materials.
Research studies. The multiple goal of the planned researches will be to design, elaborate and investigate hybrid nanoassemblies, composed of organic radicals, endowed with photoactive units (fluorescent, photochromic and strong affinity toward superparamagnetic iron oxide nanoparticles. Particular attention will be paid to retention and reproducibility of the properties after self-assembly, which will require precise molecular engineering as well as size control of the nano-objects by resorting to microfluidic synthesis, allowing for additional post-processing like surface functionalization. This work will be carried out in the framework of interdisciplinary projects, funded by the French Research National Agency (ANR), addressing high-level challenges in light-matter interactions. It will involve strong collaborations with chemists at Sorbonne University (PHENIX), photophysicists at ENS Paris, physicists at Strasbourg University (IPCMS) and theoreticians at Perpignan University (PROMES), respectively experts in nanomagnetism and magnetic nanoparticles, ultrafast spectroscopic studies, ultrafast spin dynamics and theory of heat and optical coupling in magnetic nanoparticles and nanoassemblies.
Starting date
Funding category
Funding further details
Presentation of host institution and host laboratory
Our team is more specialist in the design, manufacturing and studies of photoresponsive molecules and nanoassemblies. The lab is equipped with all common organic synthesis facilities and photophysical setups (steady-state and time-resolved absorption and emission spectroscopies, fluorescence microscopy) and has straightforward access to nanomaterial characterizations (TEM, AFM, DLS, zetametry). The candidate will work in a very dynamic scientific atmosphere, embracing energy and biology challenges, at the crossroad of molecular synthesis, photosciences, (nano)materials science and magnetism.
Website :
PhD title
Country where you obtained your PhD
Institution awarding doctoral degree
Graduate school
Candidate's profile
The recruited candidate is thus expected to possess a strong working-together spirit, be open-minded and ready for interdisciplinarity, and finally have a solid background in organic synthesis and molecular physical chemistry.
Vous avez déjà un compte ?
Nouvel utilisateur ?
Get ABG’s monthly newsletters including news, job offers, grants & fellowships and a selection of relevant events…
Discover our members
ASNR - Autorité de sûreté nucléaire et de radioprotection - Siège
Medicen Paris Region
Laboratoire National de Métrologie et d'Essais - LNE
ONERA - The French Aerospace Lab
TotalEnergies
Ifremer
ADEME
Institut Sup'biotech de Paris
Servier
Aérocentre, Pôle d'excellence régional
Groupe AFNOR - Association française de normalisation
Tecknowmetrix
SUEZ
Nantes Université
Nokia Bell Labs France
ANRT
Généthon

