Maria VAZQUEZ (IPCMS – DCMI)
Ce travail a été réalisé à l’IPCMS, sous la direction de Christophe Lefevre, Daniel Stoeffler et Nicolas Vukadinovic dans le cadre du laboratoire commun MOLIERE avec le financement de Dassault Aviation.
La soutenance aura lieu le vendredi 24 octobre 2025 à 9h30 dans l’Auditorium de l’IPCMS et elle sera suivie d’un pot de thèse dans la cafétéria de l’IPCMS, auquel vous êtes cordialement invités.
Pacôme CHAPEL (IPCMS-DMO)
Ce travail à été réalisé sous la direction du Dr. Guillaume ROGEZ avec un financement apporté par l’ITI Qmat.
La soutenance aura lieu le mardi 21 octobre 2025 à 9h30 dans l’Auditorium de l’IPCMS, elle sera suivie d’un pot de thèse dans la cafétéria de l’IPCMS, auquel vous êtes également cordialement invités.
Icare MORROT-WOISARD (IPCMS-DCMI)
Cette thèse a été réalisé sous la supervision de Mauro Boero et Guido Ori.
Elle aura lieu le vendredi 26 septembre 2025 à 14h, dans l’auditorium de l’IPCMS. La soutenance sera suivie d’un petit pot dans la cafétéria de l’IPCMS, et vous y êtes tous cordialement invités.
Théo Lucante (IPCMS – DCMI)
Ce travail à été réalisé sous la direction du Pr. Sylvie BÉGIN-COLIN et la co-supervision du Dr. Philippe CHOQUET et du Pr. Ariane ZALOSZYC.
Abhishake MONDAL (Solid State and Structural Chemistry Unit, Indian Institute of Science, Bangalore)
Abstract :
The pursuit of smart multifunctional materials with stimuli-responsive magnetic and optical response has drawn escalating interest in both fundamental science and potential applications to switches, sensors, and intelligent devices.1 One of the appealing feature of such materials is the tunability of their physical property via chemistry, where the linking structure and physical properties can be modulated in practically infinite ways, which gives them an edge over the solid-state magnetic materials (Figure 1, a).2 The field of molecular bistable systems is rapidly budding towards utilizing these molecule-based magnetic materials in physics-driven and nanotechnology-driven fields (Figure 1, b).
Figure 1: a) Stimuli-responsive molecular bistable systems and b) Application areas where these systems are actively studied for developing devices
Here, I will briefly cover the exciting field of Molecular Magnetism and will specifically focus on three most important aspects of Molecular Magnetism being pursued in my laboratory i) Spin Crossover (SCO) materials3 ii) Metal-to-Metal Electron Transfer Systems (MMET)4 and iii) Single Molecule Magnets (SMM).5 Lastly, I shall discuss the application of these bistable systems in developing ring-resonator devices for Photonics Application, molecular break junctions and microelectromechanical systems.
Acknowledgments: I thank the Indian Institute of Science (IISc), Bangalore, India, and the Ministry of Human Resource Development (MHRD), Ministry of Education (MoE), Government of India, IISc-Start-up Research Grant, the Department of Science and Technology, Mission on Nano Science and Technology (Nano Mission), Scheme for Transformational and Advanced Research in Sciences (STARS, MHRD), Council of Scientific and Industrial Research (CSIR) for the research fundings.
References:
1. Kamilya, S.; Dey, B.; Kaushik, K.; Shukla, S.; Mehta, S.; Mondal, A. Chem. Mater. 2024, 36, 4889, Kaushik, K.; Mehta, S.; Das, M.; Ghosh, S.; Kamilya, S.; Mondal, A., Chem. Commun., 2023, 59, 13107, Coronado, E., Nat. Rev. Mater. 2020, 5, 87. 2. Minguez Espallargas, G.; Coronado, E., Chem. Soc. Rev. 2018, 47, 533. 3. Ghosh, S.; Kamilya, S.; Pramanik, T.; Rouzieres, M.; Herchel, R.; Mehta, S.; Mondal, A., Inorg. Chem. 2020, 59, 13009, Ghosh, S.; Ghosh, S.; Kamilya, S.; Mandal, S.; Mehta, S.; Mondal, A., Inorg. Chem. 2022, 61, 17080, Bagchi, S.; Kamilya, S.; Mehta, S.; Mandal, S.; Bandyopadhyay, A.; Narayan, A.; Ghosh, S.; Mondal, A., Dalton Trans., 2023, 52, 11335, Ghosh, S.; Bagchi, S.; Kamilya, S.; Mehta, S.; Sarkar, D.; Herchel R.; Mondal, A., Dalton Trans., 2022, 51, 7681. 4. Kamilya, S.; Ghosh, S.; Li, Y.; Dechambenoit, P.; Rouzières, M.; Lescouëzec, R.; Mehta, S.; Mondal, A., Inorg. Chem., 2020, 59, 11879, Kamilya, S.; Ghosh, S.; Mehta, S.; Mondal, A., J. Phys. Chem. A 2021, 125, 4775. 5. Hossain, S. M.; Kamilya, S.; Ghosh, S.; Herchel, R.; Kiskin, M. A.; Mehta, S.; Mondal, A., Cryst. Growth Des. 2023, 23, 1656.
Paul ROBINEAU (Institut pluridisciplinaire Hubert Curien)
Pour votre information, Paul Robineau sera candidat auprès de la commission interdisciplinaire (CID) 52 du CNRS intitulée « Environnements sociétés: du savoir à l’action ».
Abstract : Materials exhibiting luminescence stimuli-responsive properties, present potential application as detection systems. Among these materials, copper (I) iodide molecular clusters coordinated by phosphine ligands, exhibit thermochromic and mechanochromic luminescence properties. These compounds are characterized by a change of their emission wavelength in response to temperature or mechanical stress. The establishment of structure- properties relationships permit to study the mechanisms responsible for their properties. The main characterization techniques used are solid-state NMR, X-ray diffraction, Infrared and Raman spectroscopies. In addition to the thermo and mechanochromic properties, these compounds have the particularity of exhibiting aggregation-induced emission (AIE) properties. The understanding of properties is crucial for applications. Therefore, DFT (Density Functional Theory) calculations are also carried out to rationalize the different results and in particular the optical properties. In the last years, copper has been proposed as a substituent in lead perovskite-based devices due to its non-toxic nature. We are currently investigating the use of copper perovskites for solar cells.
La soutenance se tiendra le vendredi 20 septembre 2024 à 9h30 dans l’amphithéâtre Grünewald de l’IPHC (bâtiment 25, campus de cronenbourg).
Ces travaux ont été réalisés sous la supervision de Carlo MASSOBRIO (MATISEN – ICube) et Guido ORI (DCMI-IPCMS).
Xavier Henning (IPCMS / DMO-DCMI)
Ce travail a été réalisé sous la direction du Dr. Mircea RASTEI (DMO) et du Pr. Aziz DINIA (DCMI).
Orateur : Thomas Cottineau (Equipe Photocatalyse & Photoconversion –
Institut de Chimie et Procédés pour l’Energie, l’Environnement et la Santé
(ICPEES UMR 7515 CNRS / Université de Strasbourg)
