Synthesis of bifunctional Gd_2O_3:Eu^(3+) nanocrystals and their applications in biomedical imaging 被引量：2

Synthesis of bifunctional Gd_2O_3:Eu^(3+) nanocrystals and their applications in biomedical imaging

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摘要 Ultrafine Gd2O3：Eu3＋nanocrystals were successfully prepared by a simple reverse microemulsion method and subsequent calcination. Their structural, optical and magnetic properties were investigated using scanning electron microscopy （SEM）, transmis-sion electron microscopy （TEM）, X-ray diffraction （XRD）, Fourier transform infrared （FTIR）, photoluminescence （PL）, and magnetic property measurement system （MPMS）. The amorphous Gd2（CO3）3：Eu3＋colloidal spheres were proved as an intermediate product, and gradually transformed into crystallized Gd2O3：Eu3＋with average diameter less than 100 nm. The paramagnetic property of the synthesized Gd2O3：Eu3＋nanocrystals were confirmed with its linear hysteresis plot （M-H）. And Gd2O3：Eu3＋nanocrystals showed high contrast T1-enhancing modality due to the presence of the Gd3＋ ions onto the particle surface. In addition, the application of the Gd2O3：Eu3＋nanocrystals as biotag for cell labeling was reported, red fluorescence from Eu3＋ions observed by fluorescence micros-copy showed that the nanocrystals could permeate the cell membrane. Cytotoxicity studies of the Gd2O3：Eu3＋nanocrystals showed no adverse effect on cell viability, evidencing their high biological compatibility. Therefore, the nanoprobe formed from Gd2O3：Eu3＋nanocrystals provided the dual modality of optical and magnetic resonance imaging. Ultrafine Gd2O3：Eu3＋nanocrystals were successfully prepared by a simple reverse microemulsion method and subsequent calcination. Their structural, optical and magnetic properties were investigated using scanning electron microscopy （SEM）, transmis-sion electron microscopy （TEM）, X-ray diffraction （XRD）, Fourier transform infrared （FTIR）, photoluminescence （PL）, and magnetic property measurement system （MPMS）. The amorphous Gd2（CO3）3：Eu3＋colloidal spheres were proved as an intermediate product, and gradually transformed into crystallized Gd2O3：Eu3＋with average diameter less than 100 nm. The paramagnetic property of the synthesized Gd2O3：Eu3＋nanocrystals were confirmed with its linear hysteresis plot （M-H）. And Gd2O3：Eu3＋nanocrystals showed high contrast T1-enhancing modality due to the presence of the Gd3＋ ions onto the particle surface. In addition, the application of the Gd2O3：Eu3＋nanocrystals as biotag for cell labeling was reported, red fluorescence from Eu3＋ions observed by fluorescence micros-copy showed that the nanocrystals could permeate the cell membrane. Cytotoxicity studies of the Gd2O3：Eu3＋nanocrystals showed no adverse effect on cell viability, evidencing their high biological compatibility. Therefore, the nanoprobe formed from Gd2O3：Eu3＋nanocrystals provided the dual modality of optical and magnetic resonance imaging.

作者吴燕利徐贤柱李倩兰阳如春丁海新肖强

机构地区 Jiangxi Key Laboratory of Organic Chemistry Jiangxi Science and Technology Normal University College of Life Science Jiangxi Normal University

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2015年第5期529-534,共6页 稀土学报（英文版）

基金 Project supported by Education Department of Jiangxi Province(GJJ14578,GJJ13216)

关键词 Gd2O3：Eu3＋nanocrystal dual-modality optical and MR imaging rare earths Gd2O3：Eu3＋nanocrystal dual-modality optical and MR imaging rare earths

分类号 TB383.1 [一般工业技术—材料科学与工程]

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