Mathieu Rouzières

CNRS engineer for characterization & instrumental development (magnetometry)

Mathieu Rouzières

Place and date of Birth:
Talence (Gironde, France)
11 Avril 1980
Institutional address:
Centre de Recherche Paul Pascal
CRPP – CNRS UMR5031
Research team M3
115, avenue du Dr. A. Schweitzer
33600 Pessac, France
Phone:     +33 5 56 84 56 24    
Fax:         +33 5 56 84 56 00
Email:      mathieu.rouzieres@crpp.cnrs.fr

Academic education and professional positions

Since 2019 Assistant Ingénieur en Science des matériaux et Caractérisation, CNRS CRPP, Team M3
2017 – 2019Local contact and member of the comittee of the European magnetometry network for the Université de Bordeaux
Since 2016Local contact and member of the comittee of the French magnetometry network for the CRPP
2010 – 2019Assistant Ingénieur en Instrumentation et Techniques expérimentales, CNRS CRPP, Team M3
2004 – 20010Assistant Ingénieur en Instrumentation, Synchrotron SOLEIL, Ligne de lumière de spectroscopie InfraRouge et TeraHertz AILES
2001 – 2002Analyste programmeur (C++, WinDev), European Data
2001DUT Mesures Physiques, Université de Bordeaux

Most significant publications

[678]. P. Perlepe, I. Oyarzabal, A. Mailman, M. Yquel, M. Platunov, I. Dovgaliuk, M. Rouzières, P. Négrier, D. Mondieig, E. A. Suturina, M.A. Dourges, S. Bonhommeau, R. A. Musgrave, K. S. Pedersen, D. Chernyshov, F. Wilhelm, A. Rogalev, C. Mathonière, R. Clérac, “Metal-organic magnets with large coercivity and ordering temperatures up to 242°C”, Science, Vol. 370, Issue 6516, pp. 587-592, (2020) – 10.1126/science.abb3861Abstract – Reprint Full text

[658]. Y.S. Ye, X.Q. Chen, Y. De Cai, B. Fei, P. Dechambenoit, M. Rouzières, C. Mathonière, R. Clérac and X. Bao “Slow Dynamics of the Spin-Crossover Process in an Apparent High-Spin Mononuclear FeII Complex”, Angew. Chem. Int. Ed., 58, 18888-18891, (2019) – 10.1002/anie.201911538.

[640]. D. Sadhukhan, P. Ghosh, C. J. Gómez-García, M. Rouzieres, Co(II)-Hydrazone Schiff Base Single Ion Magnet Exhibiting Field Induced Slow Relaxation Dynamics, Magnetochemistry, 4, 56 (2018) –10.3390/magnetochemistry4040056

[633]. K. S. Pedersen, P. Perlepe, M. L. Aubrey, D. N. Woodruff, S.E. Reyes-Lillo, A. Reinholdt, L. Voigt, Z. Li, K. Borup, M. Rouzières, D. Samohvalov, F. Wilhelm, A. Rogalev, J. B. Neaton, J. R. Long, R. Clérac, “Formation of the layered conductive magnet CrCl2(pyrazine)2 through redox-active coordination chemistry”, Nature Chemistry, 10, 1056-1061 (2018) – 0.1038/s41557-018-0107-7

Most significant instrumental developments

2019Creation of softwares to treat and analize magnetic data (MagSuite)
2017 – 2020Conception of a four points inline probe for conductivity measurements for Quantum Design PPMS systems, compatible with air sensitive pellet, and a controlled environment from 400 to 1.9 K, and up to 9T
2015 – 2016Improvement of the control & acquisition software of a prototype for visible reflectance measurements, with a controlled environment from 270 to 10 K, and with an adjustable irradiation (365 – 1050 nm)
2013 – 2015Integration of helium recondenser on Quantum Design systems (MPMS XL, PPMS)