RECHERCHER
Résultats de la recherche ""
Structural insights into tecovirimat antiviral activity and poxvirus resistance
Publié le 14/02/2025
... Vernuccio, R., Martínez León, A., Poojari, C.S., Buchrieser, J., Selverian, C.N., Jaleta, Y., Meola, A., Guivel-Benhassine, F., Porrot, F., Haouz, A., Chevreuil, M., Raynal, B., Mercer, J., Simon-Loriere, S., Chandran, K., Schwartz, O., Hub, J.S., ...
Charge Transfer Between Ce and Fe During Cooling of an Aluminosilicate Melt: An In Situ XANES Investigation
Publié le 11/02/2025
... Donatini, A., Georges, P., Fevre, T., Cormier, L., Neuville, D.R. "Charge Transfer Between Ce and Fe During Cooling of an Aluminosilicate Melt: An In Situ XANES Investigation" Inorganic Chemistry., 64(7): 3528–3540. (2025). ...
Synthesis of spherical mesoporous silica beads with tunable size, stiffness and porosity
Publié le 08/02/2025
... Milani, M., Ahmad, K., Cavalletti, E., Ligoure, C., Cipelletti, L., Kongkaew, M., Trens, P., Ramos, L. "Synthesis of spherical mesoporous silica beads with tunable size, stiffness and porosity" Microporous and Mesoporous Materials., 387: art.n° 113534. ...
Reactive Processing of Polyethylene with Azidotriazine: From Modified Thermoplastics to Injection Moldable Covalent Adaptable Networks
Publié le 03/02/2025
... Sun, H., Vialon, T., Guibert, C., Casale, S., Nicolaÿ, R., Van Zee, N.J. "Reactive Processing of Polyethylene with Azidotriazine: From Modified Thermoplastics to Injection Moldable Covalent Adaptable Networks" ACS Applied Polymer Materials., 7(3): 2123 ...
Poly(β-hydroxyalkanoate)/polymethacrylate self-assembled architectures by ring-opening polymerization (ROP)/reversible addition–fragmentation chain-transfer (RAFT) polymerization and polymerization-induced self-assembly (PISA)
Publié le 03/02/2025
... Rosselgong, J., Dhaini, A., Rochedy, M., Bravo-Anaya, L.M., Carpentier, J.F., Guillaume, S.M. "Poly(β-hydroxyalkanoate)/polymethacrylate self-assembled architectures by ring-opening polymerization (ROP)/reversible addition–fragmentation chain-transfer ...
Dense Liquid Precursor in Mineral Crystallization: Spinodal Morphology and High Viscosity Evidenced by Electron Imaging
Publié le 03/02/2025
... Raimbault, J., Chevallard, C., Ihiawakrim, D., Ramnarain, V., Ersen, O., Gobeaux, F., Carriere, D. "Dense Liquid Precursor in Mineral Crystallization: Spinodal Morphology and High Viscosity Evidenced by Electron Imaging" Nano Letters., 25(6): 2275–2282. ...
Bifunctional chimeras of myeloperoxidase and glucose oxidase. Antimicrobial, topological and enzymatic properties
Publié le 29/01/2025
... Kenfack Ymbe, P., Céré, C., Delord, B., Pecastaings, G., Ly, I., Thureau, A., Rodriguez, L., Ivanovic, Z., Schmitt, V., Lafarge, X., Chapel, J.P., Stines-Chaumeil, C. "Bifunctional chimeras of myeloperoxidase and glucose oxidase. Antimicrobial, ...
Localization and speciation of Rare Earth Elements in mine tailings from ion-adsorption clay deposits, Southern China: Insights from microfocused X-ray fluorescence spectroscopy
Publié le 23/01/2025
... Janot, N., Huot, H., Rivard, C., Perrin, M., Noirault, A., Tang, Y.T., Watteau, F., Montarges-Pelletier, E. "Localization and speciation of Rare Earth Elements in mine tailings from ion-adsorption clay deposits, Southern China: Insights from microfocused ...
Multi-scale investigation of the effect of photocurable polyethylene glycol diacrylate (PEGDA) on the self-assembly of cellulose nanocrystals (CNCs)
Publié le 22/01/2025
... Metilli, L., Mandin, S., Chazapi, I., Paineau, E., Chèvremont, W., Hengl, N., Pignon, F., Jean, B. "Multi-scale investigation of the effect of photocurable polyethylene glycol diacrylate (PEGDA) on the self-assembly of cellulose nanocrystals (CNCs)" ...
Cuprite crystallization in glasses: redox changes and the impact of copper and lead in reducing atmospheres
Publié le 15/01/2025
... Noirot, C., Cormier, L., Neuville, D.R., Schibille, N. "Cuprite crystallization in glasses: redox changes and the impact of copper and lead in reducing atmospheres" Journal of the European Ceramic Society., 45(6): art.n° 117195. (2025). ...