Agnès Pottier
Centre national de la recherche scientifique
43 Papers
125 Citations
Agnès Pottier is an academic researcher from Centre national de la recherche scientifique. The author has contributed to research in topics: Nanoparticle & Cancer. The author has an hindex of 12, co-authored 43 publications.
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Papers
Nanoscale radiotherapy with hafnium oxide nanoparticles.
Laurence Maggiorella,Gilles Barouch,Corinne Devaux,Agnès Pottier,Eric Deutsch,Jean Bourhis,Elsa Borghi,Laurent Levy +7 more
TL;DR: Hfnium oxide nanoparticles designed that concentrate in tumor cells to achieve intracellular high-energy dose deposit provide the basis for developing this new type of nanoparticle as a promising anticancer approach in human patients.
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Delivering the power of nanomedicine to patients today.
Matthieu Germain,Fanny Caputo,Su M. Metcalfe,Giovanni Tosi,Kathleen Spring,Andreas Åslund,Agnès Pottier,Raymond M. Schiffelers,Alexandre Ceccaldi,Ruth Schmid +9 more
TL;DR: An ETPN overview of achievements in nanomedicine serves to reinforce the drive towards further expanding and growing the maturity of nanomediine for global healthcare, accelerating the pace of transformation of its great potential into tangible medical breakthroughs.
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Size tailoring of TiO2 anatase nanoparticles in aqueous medium and synthesis of nanocomposites. Characterization by Raman spectroscopy
Agnès Pottier,Sophie Cassaignon,Corinne Chanéac,F. Villain,Elisabeth Tronc,Jean-Pierre Jolivet +5 more
TL;DR: In this paper, anatase nanoparticles with mean size in the range 5-10 nm were prepared by precipitation of TiCl4 in aqueous medium in a range 2 ≤ pH ≤ 6.
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Size tailoring of oxide nanoparticles by precipitation in aqueous medium. A semi-quantitative modelling
Jean-Pierre Jolivet,Cédric Froidefond,Agnès Pottier,Corinne Chanéac,Sophie Cassaignon,Elisabeth Tronc,Patrick Euzen +6 more
TL;DR: In this paper, the authors show that the variations in size and shape are tightly related to the variation of the electrostatic surface charge density of the particles, which induces a variation of oxide-solution interfacial tension, and, consequently, a decrease of the surface energy.
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•Journal Article
New Use of Metals as Nanosized Radioenhancers
TL;DR: NBTXR3 brings a physical mode of action, that of radiotherapy, within the cancer cells themselves, which represents a breakthrough approach for the local treatment of solid tumors.
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