Silica nanoparticles with dual visible-NIR luminescence affected by silica confinement of Tb complexes for cellular imaging application

The work introduces silica confinement of Tb(III) and Yb(III) complexes with p-sulfonatothiacalix[4]arene (TCAS) arisen from their doping into silica nanoparticles (51-60 nm) as the reason for efficient dual green-NIR luminescence. pH-regulated water solubility of the lanthanide complexes is highlig...

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Veröffentlicht in:	Journal of materials science 2019-06, Vol.54 (12), p.9140
Hauptverfasser:	Fedorenko, Svetlana, Gilmanova, Diana, Mukhametshina, Alsu, Nizameev, Irek, Kholin, Kirill, Akhmadeev, Bulat, Voloshina, Alexandra
Format:	Artikel
Sprache:	eng
Schlagworte:	Imaging systems Nanoparticles Rare earth metals Silica
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container_title	Journal of materials science
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creator	Fedorenko, Svetlana Gilmanova, Diana Mukhametshina, Alsu Nizameev, Irek Kholin, Kirill Akhmadeev, Bulat Voloshina, Alexandra
description	The work introduces silica confinement of Tb(III) and Yb(III) complexes with p-sulfonatothiacalix[4]arene (TCAS) arisen from their doping into silica nanoparticles (51-60 nm) as the reason for efficient dual green-NIR luminescence. pH-regulated water solubility of the lanthanide complexes is highlighted as prerequisite for the balance between efficient doping of the complexes into silica nanoparticles and their size/shape university. The impact of Tb(III) [right arrow] Yb(III) energy transfer on the NIR and visible luminescence of the nanoparticles was revealed from photophysical studies of the nanoparticles doped with different couples of lanthanide complexes (Tb-Gd, Tb-Yb, Yb-Gd) at various molar ratios. The optimal balance between green and NIR luminescence is achieved for the silica nanoparticles doped with Tb-Yb complexes at 2:1 (Tb:Yb) ratio due to both Tb(III) [right arrow] Yb(III) energy transfer and specific distribution of Tb(III) and Yb(III) complexes within silica nanoparticles. The dual luminescent nanoparticles exhibit efficient cellular uptake behavior after amino-decoration of their surface, which is confirmed by confocal microscopy images of the cells incubated by the heterometallic nanoparticles.
doi_str_mv	10.1007/s10853-019-03532-6
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The impact of Tb(III) [right arrow] Yb(III) energy transfer on the NIR and visible luminescence of the nanoparticles was revealed from photophysical studies of the nanoparticles doped with different couples of lanthanide complexes (Tb-Gd, Tb-Yb, Yb-Gd) at various molar ratios. The optimal balance between green and NIR luminescence is achieved for the silica nanoparticles doped with Tb-Yb complexes at 2:1 (Tb:Yb) ratio due to both Tb(III) [right arrow] Yb(III) energy transfer and specific distribution of Tb(III) and Yb(III) complexes within silica nanoparticles. 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The impact of Tb(III) [right arrow] Yb(III) energy transfer on the NIR and visible luminescence of the nanoparticles was revealed from photophysical studies of the nanoparticles doped with different couples of lanthanide complexes (Tb-Gd, Tb-Yb, Yb-Gd) at various molar ratios. The optimal balance between green and NIR luminescence is achieved for the silica nanoparticles doped with Tb-Yb complexes at 2:1 (Tb:Yb) ratio due to both Tb(III) [right arrow] Yb(III) energy transfer and specific distribution of Tb(III) and Yb(III) complexes within silica nanoparticles. 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The impact of Tb(III) [right arrow] Yb(III) energy transfer on the NIR and visible luminescence of the nanoparticles was revealed from photophysical studies of the nanoparticles doped with different couples of lanthanide complexes (Tb-Gd, Tb-Yb, Yb-Gd) at various molar ratios. The optimal balance between green and NIR luminescence is achieved for the silica nanoparticles doped with Tb-Yb complexes at 2:1 (Tb:Yb) ratio due to both Tb(III) [right arrow] Yb(III) energy transfer and specific distribution of Tb(III) and Yb(III) complexes within silica nanoparticles. The dual luminescent nanoparticles exhibit efficient cellular uptake behavior after amino-decoration of their surface, which is confirmed by confocal microscopy images of the cells incubated by the heterometallic nanoparticles.</abstract><pub>Springer</pub><doi>10.1007/s10853-019-03532-6</doi></addata></record>
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subjects	Imaging systems Nanoparticles Rare earth metals Silica
title	Silica nanoparticles with dual visible-NIR luminescence affected by silica confinement of Tb complexes for cellular imaging application
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