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Ultra-small Platinum-based coordination nanoparticles for radiotherapy. R. George, L. Fétiveau, E. Porcel, F. Savina, C. Bosson, D. Dragoe, F. Brisset, H. Remita, S. Lacombe, L. Catala, Materials Advances, 2023, 4, 5314-5323
η-Carbides (Co, Mo, or W) Nanoparticles from Octacyanometalates Precursors-Based Network. T. Blin, A. Girard, F. Fossard, N. Guillou, L. Catala, A. Loiseau, V. Huc, Small, 2023, n/a, 2301299
Out-of-equilibrium dynamics driven by photoinduced charge transfer in CsCoFe Prussian blue analogue nanocrystals. S. Zerdane, M. Hervé, S. Mazerat, L. Catala, R. Alonso-Mori, J. M. Glownia, S. Song, M. Levantino, T. Mallah, M. Cammarata, E. Collet, Faraday Discuss., 2022
Magnetic Hysteresis in a Monolayer of Oriented 6 nm CsNiCr Prussian Blue Analogue Nanocrystals. L. Zhang, M.-A. Arrio, S. Mazerat, L. Catala, W. Li, E. Otero, P. Ohresser, L. Lisnard, C. Cartier Dit Moulin, T. Mallah, P. Sainctavit, Inorg. Chem., 2021, 60, 16388-16396
Building responsive materials by assembling Fe4Co4 switchable molecular cubes. Q. P. Xuan, J. Glatz, A. Benchohra, J.-R. Jiménez, R. Plamont, L.-M. Chamoreau, A. Flambard, Y. Li, L. Lisnard, D. Dambournet, O. J. Borkiewicz, M.-L. Boillot, L. Catala, A. Tissot, R. Lescouëzec, J. Mater. Chem. C, 2021, 9, 8882-8890
Collective Magnetic Behavior of 11 nm Photo-Switchable CsCoFe Prussian Blue Analogue Nanocrystals: Effect of Dilution and Light Intensity. L. Trinh, E. Rivière, S. Mazerat, L. Catala, T. Mallah, Magnetochemistry, 2021, 7
Charge transfer driven by ultrafast spin transition in a CoFe Prussian blue analogue. M. Cammarata, S. Zerdane, L. Balducci, G. Azzolina, S. Mazerat, C. Exertier, M. Trabuco, M. Levantino, R. Alonso-Mori, J. M. Glownia, S. Song, L. Catala, T. Mallah, S. F. Matar, E. Collet, Nature Chemistry, 2021, 13, 10-14
Photoswitchable 11 nm CsCoFe Prussian Blue Analogue Nanocrystals with High Relaxation Temperature. L. Trinh, S. Zerdane, S. Mazérat, N. Dia, D. Dragoe, C. Herrero, E. Rivière, L. Catala, M. Cammarata, E. Collet, T. Mallah, Inorg. Chem., 2020, 59, 13153-13161
Tailored ultra-small Prussian blue-based nanoparticles for MRI imaging and combined photothermal/photoacoustic theranostics. L. Fétiveau, G. Paul, A. Nicolas-Boluda, J. Volatron, R. George, S. Laurent, R. Muller, L. Sancey, P. Mejanelle, A. Gloter, F. Gazeau, L. Catala, Chem. Commun., 2019, 55, 14844-14847
Tuning bimetallic catalysts for a selective growth of SWCNTs. S. Forel, A. Castan, H. Amara, I. Florea, F. Fossard, L. Catala, C. Bichara, T. Mallah, V. Huc, A. Loiseau, C.-S. Cojocaru, Nanoscale, 2019, 11, 4091-4100
Spin-crossover nanoparticles and nanocomposite materials. L. Salmon, L. Catala, Comptes Rendus Chimie, 2018, 10.1016/j.crci.2018.07.009
Probing Transient Photoinduced Charge Transfer in Prussian Blue Analogues with Time-Resolved XANES and Optical Spectroscopy. S. Zerdane, M. Cammarata, L. Balducci, R. Bertoni, L. Catala, S. Mazerat, T. Mallah, M. N. Pedersen, M. Wulff, K. Nakagawa, H. Tokoro, S.-I. Ohkoshi, E. Collet, European Journal of Inorganic Chemistry, 2018, 2018, 272-277
New method for the growth of single-walled carbon nanotubes from bimetallic nanoalloy catalysts based on Prussian blue analog precursors. A. Castan, S. Forel, L. Catala, I. Florea, F. Fossard, F. Bouanis, A. Andrieux-Ledier, S. Mazerat, T. Mallah, V. Huc, A. Loiseau, C. Sorin-Cojocaru, Carbon, 2017, 123, 583-592
Nanoparticles of Prussian blue analogs and related coordination polymers: From information storage to biomedical applications. L. Catala, T. Mallah, Coordination Chemistry Reviews, 2017, 346, 32-61
Individual-collective crossover driven by particle size in dense assemblies of superparamagnetic nanoparticles. K. Ridier, B. Gillon, G. Chaboussant, L. Catala, S. Mazérat, E. Rivière, T. Mallah, European Physical Journal B, 2017, 90, 77
Small-angle neutron scattering study of the short-range organization of dispersed CsNi[Cr(CN)6] nanoparticles. K. Ridier, B. Gillon, G. André, G. Chaboussant, L. Catala, S. Mazérat, T. Mallah, Journal of Applied Physics, 2015, 118, 114304
Imaging the Magnetic Reversal of Isolated and Organized Molecular-Based Nanoparticles using Magnetic Force Microscopy. E. Pinilla-Cienfuegos, S. Kumar, S. Mañas-Valero, J. Canet-Ferrer, L. Catala, T. Mallah, A. Forment-Aliaga, E. Coronado, Particle & Particle Systems Characterization, 2015, 32, 693-700
Magnetization Reversal in CsNiIICrIII(CN)6 Coordination Nanoparticles: Unravelling Surface Anisotropy and Dipolar Interaction Effects. Y. Prado, S. Mazerat, E. Rivière, G. Rogez, A. Gloter, O. Stéphan, L. Catala, T. Mallah, Advanced Functional Materials, 2014, 24, 5402-5411
MnII-containing coordination nanoparticles as highly efficient T1 contrast agents for magnetic resonance imaging. G. Paul, Y. Prado, N. Dia, E. Riviere, S. Laurent, M. Roch, L. V. Elst, R. N. Muller, L. Sancey, P. Perriat, O. Tillement, T. Mallah, L. Catala, Chemical Communications, 2014, 50, 6740-6743