| Subnanometer local temperature probing and remotely controlled drug release based on azo-functionalized iron oxide nanoparticles A Riedinger, P Guardia, A Curcio, MA Garcia, R Cingolani, L Manna, ... Nano letters 13 (6), 2399-2406, 2013 | 450 | 2013 |
| 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 | 245 | 2018 |
| From Binary Cu2S to Ternary Cu–In–S and Quaternary Cu–In–Zn–S Nanocrystals with Tunable Composition via Partial Cation Exchange QA Akkerman, A Genovese, C George, M Prato, I Moreels, A Casu, ... ACS nano 9 (1), 521-531, 2015 | 205 | 2015 |
| 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), 1288-1302, 2019 | 203 | 2019 |
| Targeted thermal therapy with genetically engineered magnetite magnetosomes@ RGD: Photothermia is far more efficient than magnetic hyperthermia AP Sangnier, S Preveral, A Curcio, AKA Silva, CT Lefèvre, D Pignol, ... Journal of Controlled Release 279, 271-281, 2018 | 137 | 2018 |
| Thermoresponsive iron oxide nanocubes for an effective clinical translation of magnetic hyperthermia and heat-mediated chemotherapy BT Mai, PB Balakrishnan, MJ Barthel, F Piccardi, D Niculaes, F Marinaro, ... ACS applied materials & interfaces 11 (6), 5727-5739, 2019 | 127 | 2019 |
| Biosynthesis of magnetic nanoparticles from nano-degradation products revealed in human stem cells A Van de Walle, A Plan Sangnier, A Abou-Hassan, A Curcio, M Hémadi, ... Proceedings of the National Academy of Sciences 116 (10), 4044-4053, 2019 | 121 | 2019 |
| Functionalization of strongly interacting magnetic nanocubes with (thermo) responsive coating and their application in hyperthermia and heat-triggered drug delivery H Kakwere, MP Leal, ME Materia, A Curcio, P Guardia, D Niculaes, ... ACS applied materials & interfaces 7 (19), 10132-10145, 2015 | 118 | 2015 |
| 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 | 107 | 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 | 107 | 2018 |
| Polymer coated inorganic nanoparticles: tailoring the nanocrystal surface for designing nanoprobes with biological implications A Quarta, A Curcio, H Kakwere, T Pellegrino Nanoscale 4 (11), 3319-3334, 2012 | 98 | 2012 |
| Iron oxide mediated photothermal therapy in the second biological window: A comparative study between magnetite/maghemite nanospheres and nanoflowers S Cabana, A Curcio, A Michel, C Wilhelm, A Abou-Hassan Nanomaterials 10 (8), 1548, 2020 | 90 | 2020 |
| Magnetic pH-responsive nanogels as multifunctional delivery tools for small interfering RNA (siRNA) molecules and iron oxide nanoparticles (IONPs) A Curcio, R Marotta, A Riedinger, D Palumberi, A Falqui, T Pellegrino Chemical communications 48 (18), 2400-2402, 2012 | 66 | 2012 |
| Post-Synthesis Incorporation of 64Cu in CuS Nanocrystals to Radiolabel Photothermal Probes: A Feasible Approach for Clinics A Riedinger, T Avellini, A Curcio, M Asti, Y Xie, R Tu, S Marras, ... Journal of the American Chemical Society 137 (48), 15145-15151, 2015 | 63 | 2015 |
| Magnetic (Hyper) Thermia or Photothermia? Progressive Comparison of Iron Oxide and Gold Nanoparticles Heating in Water A Curcio, AKA Silva, R Di Corato, S Neveu, T Pellegrino, LM Liz-Marzán, ... Cells, and In Vivo. Adv. Funct. Mater 28 (37), 1803660, 2018 | 56 | 2018 |
| Transformation cycle of magnetosomes in human stem cells: from degradation to biosynthesis of magnetic nanoparticles anew A Curcio, A Van de Walle, A Serrano, S Preveral, C Péchoux, D Pignol, ... ACS nano 14 (2), 1406-1417, 2019 | 51 | 2019 |
| Magnetic nanocarriers with tunable pH dependence for controlled loading and release of cationic and anionic payloads NC Bigall, A Curcio, MP Leal, A Falqui, D Palumberi, R Di Corato, ... Advanced Materials 23 (47), 5645-5650, 2011 | 51 | 2011 |
| Massive intracellular remodeling of CuS nanomaterials produces nontoxic bioengineered structures with preserved photothermal potential A Curcio, AV de Walle, E Benassai, A Serrano, N Luciani, N Menguy, ... ACS nano 15 (6), 9782-9795, 2021 | 50 | 2021 |
| Impact of magnetic nanoparticle surface coating on their long-term intracellular biodegradation in stem cells AP Sangnier, AB Van de Walle, A Curcio, R Le Borgne, L Motte, ... Nanoscale 11 (35), 16488-16498, 2019 | 50 | 2019 |
| Carbon dots, a powerful non-toxic support for bioimaging by fluorescence nanoscopy and eradication of bacteria by photothermia H Belkahla, R Boudjemaa, V Caorsi, D Pineau, A Curcio, JS Lomas, ... Nanoscale Advances 1 (7), 2571-2579, 2019 | 31 | 2019 |
