Water-soluble iron oxide nanocubes with high values of specific absorption rate for cancer cell hyperthermia treatment P Guardia, R Di Corato, L Lartigue, C Wilhelm, A Espinosa, ... ACS nano 6 (4), 3080-3091, 2012 | 845 | 2012 |
Duality of iron oxide nanoparticles in cancer therapy: amplification of heating efficiency by magnetic hyperthermia and photothermal bimodal treatment A Espinosa, R Di Corato, J Kolosnjaj-Tabi, P Flaud, T Pellegrino, ... ACS nano 10 (2), 2436-2446, 2016 | 808 | 2016 |
Magnetic hyperthermia efficiency in the cellular environment for different nanoparticle designs R Di Corato, A Espinosa, L Lartigue, M Tharaud, S Chat, T Pellegrino, ... Biomaterials 35 (24), 6400-6411, 2014 | 439 | 2014 |
Combining magnetic hyperthermia and photodynamic therapy for tumor ablation with photoresponsive magnetic liposomes R Di Corato, G Béalle, J Kolosnjaj-Tabi, A Espinosa, O Clément, ... ACS nano 9 (3), 2904-2916, 2015 | 343 | 2015 |
Magnetic (hyper) thermia or photothermia? Progressive comparison of iron oxide and gold nanoparticles heating in water, in cells, and in vivo A Espinosa, J Kolosnjaj‐Tabi, A Abou‐Hassan, A Plan Sangnier, A Curcio, ... Advanced Functional Materials 28 (37), 1803660, 2018 | 246 | 2018 |
Iron oxide nanoflowers@ CuS hybrids for cancer tri-therapy: interplay of photothermal therapy, magnetic hyperthermia and photodynamic therapy A Curcio, AKA Silva, S Cabana, A Espinosa, B Baptiste, N Menguy, ... Theranostics 9 (5), 1288, 2019 | 209 | 2019 |
Massive intracellular biodegradation of iron oxide nanoparticles evidenced magnetically at single-endosome and tissue levels F Mazuel, A Espinosa, N Luciani, M Reffay, R Le Borgne, L Motte, ... ACS nano 10 (8), 7627-7638, 2016 | 205 | 2016 |
Correlating magneto-structural properties to hyperthermia performance of highly monodisperse iron oxide nanoparticles prepared by a seeded-growth route M Levy, A Quarta, A Espinosa, A Figuerola, C Wilhelm, ... Chemistry of Materials 23 (18), 4170-4180, 2011 | 187 | 2011 |
Selective YAP/TAZ inhibition in fibroblasts via dopamine receptor D1 agonism reverses fibrosis AJ Haak, E Kostallari, D Sicard, G Ligresti, KM Choi, N Caporarello, ... Science translational medicine 11 (516), eaau6296, 2019 | 184 | 2019 |
Janus plasmonic–magnetic gold–iron oxide nanoparticles as contrast agents for multimodal imaging J Reguera, DJ de Aberasturi, M Henriksen-Lacey, J Langer, A Espinosa, ... Nanoscale 9 (27), 9467-9480, 2017 | 181 | 2017 |
Cancer cell internalization of gold nanostars impacts their photothermal efficiency in vitro and in vivo: toward a plasmonic thermal fingerprint in tumoral environment A Espinosa, AKA Silva, A Sánchez‐Iglesias, M Grzelczak, C Péchoux, ... Advanced healthcare materials 5 (9), 1040-1048, 2016 | 154 | 2016 |
Doxorubicin intracellular remote release from biocompatible oligo (ethylene glycol) methyl ether methacrylate-based magnetic nanogels triggered by magnetic hyperthermia E Cazares-Cortes, A Espinosa, JM Guigner, A Michel, N Griffete, ... ACS applied materials & interfaces 9 (31), 25775-25788, 2017 | 135 | 2017 |
Can magneto-plasmonic nanohybrids efficiently combine photothermia with magnetic hyperthermia? A Espinosa, M Bugnet, G Radtke, S Neveu, GA Botton, C Wilhelm, ... Nanoscale 7 (45), 18872-18877, 2015 | 128 | 2015 |
Massive release of extracellular vesicles from cancer cells after photodynamic treatment or chemotherapy K Aubertin, AKA Silva, N Luciani, A Espinosa, A Djemat, D Charue, ... Scientific reports 6 (1), 35376, 2016 | 123 | 2016 |
Structure and properties of silver-containing aC (H) films deposited by plasma immersion ion implantation JL Endrino, RE Galindo, HS Zhang, M Allen, R Gago, A Espinosa, ... Surface and Coatings Technology 202 (15), 3675-3682, 2008 | 114 | 2008 |
Janus magnetic‐plasmonic nanoparticles for magnetically guided and thermally activated cancer therapy A Espinosa, J Reguera, A Curcio, Á Muñoz‐Noval, C Kuttner, ... Small 16 (11), 1904960, 2020 | 113 | 2020 |
Intracellular biodegradation of Ag nanoparticles, storage in ferritin, and protection by a Au shell for enhanced photothermal therapy A Espinosa, A Curcio, S Cabana, G Radtke, M Bugnet, J Kolosnjaj-Tabi, ... ACS nano 12 (7), 6523-6535, 2018 | 109 | 2018 |
Design of magnetic molecularly imprinted polymer nanoparticles for controlled release of doxorubicin under an alternative magnetic field in athermal conditions N Griffete, J Fresnais, A Espinosa, C Wilhelm, A Bée, C Ménager Nanoscale 7 (45), 18891-18896, 2015 | 102 | 2015 |
Structure–property relations in ZrCN coatings for tribological applications E Silva, MR de Figueiredo, R Franz, RE Galindo, C Palacio, A Espinosa, ... Surface and Coatings Technology 205 (7), 2134-2141, 2010 | 80 | 2010 |
On the discrimination between magnetite and maghemite by XANES measurements in fluorescence mode A Espinosa, A Serrano, A Llavona, JJ De La Morena, M Abuin, ... Measurement Science and Technology 23 (1), 015602, 2011 | 73 | 2011 |