An efficient nano-sized delivery system is presented here allowing the immobilized, picolinium-tethered organic ligand to be released by X-ray irradiation. A marked difference was observed in the fragmentation efficiency by using conventional Cs-137 vs. pulsed sources.
Barosi, A., Dunkel, P., Guenin, E., Lalatonne, Y., Zeitoun, P., Fitton, I., et al. (2020). Synthesis and activation of an iron oxide immobilized drug-mimicking reporter under conventional and pulsed X-ray irradiation conditions. RSC ADVANCES, 10(6), 3366-3370 [10.1039/c9ra09828c].
Synthesis and activation of an iron oxide immobilized drug-mimicking reporter under conventional and pulsed X-ray irradiation conditions
Bravin AMembro del Collaboration Group
;
2020
Abstract
An efficient nano-sized delivery system is presented here allowing the immobilized, picolinium-tethered organic ligand to be released by X-ray irradiation. A marked difference was observed in the fragmentation efficiency by using conventional Cs-137 vs. pulsed sources.File in questo prodotto:
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