A
Agnès Pallier
Researcher at University of Orléans
Publications - 31
Citations - 790
Agnès Pallier is an academic researcher from University of Orléans. The author has contributed to research in topics: Carboxylate & Chemistry. The author has an hindex of 13, co-authored 27 publications receiving 606 citations. Previous affiliations of Agnès Pallier include Centre national de la recherche scientifique.
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Journal ArticleDOI
Lanthanide near infrared imaging in living cells with Yb3+ nano metal organic frameworks
Alexandra Foucault-Collet,Kristy A. Gogick,Kiley A. White,Sandrine Villette,Agnès Pallier,Guillaume Collet,Claudine Kieda,Tao Li,Steven J. Geib,Nathaniel L. Rosi,Stéphane Petoud,Stéphane Petoud +11 more
TL;DR: This work represents a demonstration of the possibility of using NIR lanthanide emission for biological imaging applications in living cells with single-photon excitation in nano-MOFs incorporated into living cells for NIR imaging.
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X-ray-induced radiophotodynamic therapy (RPDT) using lanthanide micelles: Beyond depth limitations
Slavka Kascakova,Alexandre Giuliani,Sara Lacerda,Agnès Pallier,Pascal Mercère,Éva Tóth,Matthieu Réfrégiers +6 more
TL;DR: In this paper, the proposed nanolipoparticles, which contain both lanthanides and photosensitizer molecules, offer new opportunities in therapy and diagnosis, by transferring visible energy to a photo-sensor and triggering photodynamic therapy (PDT) even in deep tumors.
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Four Gadolinium(III) Complexes Appended to a Porphyrin: A Water-Soluble Molecular Theranostic Agent with Remarkable Relaxivity Suited for MRI Tracking of the Photosensitizer.
Angélique Sour,Sébastien Jenni,Ana Ortí-Suárez,Julie Schmitt,Valérie Heitz,Frédéric Bolze,Paulo Loureiro de Sousa,Chrystelle Po,Célia S. Bonnet,Agnès Pallier,Éva Tóth,Barbara Ventura +11 more
TL;DR: The ability of the gadolinium(III) conjugate to penetrate in cancer cells with low cytotoxicity and its phototoxicity on Hela cells was evaluated demonstrate the high potential of this conjugates as a theranostic agent for MRI and PDT.
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Unprecedented Kinetic Inertness for a Mn 2+ ‐Bispidine Chelate: A Novel Structural Entry for Mn 2+ ‐Based Imaging Agents
Daouda Ndiaye,Maryame Sy,Agnès Pallier,Sandra Même,Isidro de Silva,Sara Lacerda,Aline Nonat,Loïc J. Charbonnière,Éva Tóth +8 more
TL;DR: In vivo MRI experiments in mice and determination of the tissue Mn content evidence rapid renal clearance of MnL 1 and the strongly preorganized structure of the 2,4-pyridyl-disubstituted bispidol ligand L 1 endows its Mn 2+ complex with exceptional kinetic inertness.
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Impact of Polymer Microstructure on the Self-Assembly of Amphiphilic Polymers in Aqueous Solutions
TL;DR: In this paper, a new series of amphiphilic polymers (amphipols) with varied molecular characteristics was prepared, and their properties in aqueous media were examined by static and dynamic light scattering techniques.