Wide visible-range activatable fluorescence ZnSe:Eu3+/Mn2+@ZnS quantum dots

KHAN, ZAHID U.; UCHIYAMA, MAYARA K.; KHAN, LATIF U.; ARAKI, KOITI; GOTO, HIRO; FELINTO, MARIA C.F.C.; SOUZA, ANA O. de; BRITO, HERMI F. de; GIDLUND, MAGNUS

Wide visible-range activatable fluorescence ZnSe:Eu3+/Mn2+@ZnS quantum dots

Download

Data

2022

Autores IPEN

MARIA CLAUDIA FRANCA DA CUNHA FELINTO

É parte de

Journal of Materials Chemistry B

Exportar

Resumo

The development of QDs-based fluorescent bionanoprobe for cellular imaging fundamentally relies upon the precise knowledge of particle–cell interaction, optical properties of QDs inside and outside of the cell, movement of a particle in and out of the cell, and the fate of particle. We reported engineering and physicochemical characterization of water-dispersible Eu3+/Mn2+ co-doped ZnSe@ZnS core/shell QDs and studied their potential as a bionanoprobe for biomedical applications, evaluating their biocompatibility, fluorescence behaviour by CytoViva dual mode fluorescence imaging, time-dependent uptake, endocytosis and exocytosis in RAW 264.7 macrophages. The oxidation state and local atomic structure of the Eu dopant studied by X-ray absorption fine structure (XAFS) analysis manifested that the Eu3+ ions occupied sites in both ZnSe and ZnS lattices for the core/shell QDs. A novel approach was developed to relieve the excitation constraint of wide bandgap ZnSe by co-incorporation of Eu3+/Mn2+ codopants, enabling the QDs to be excited at a wide UV-visible range. The QDs displayed tunable emission colors by a gradual increase in Eu3+ concentration at a fixed amount of Mn2+, systematically enhancing the Mn2+ emission intensity via energy transfer from the Eu3+ to Mn2+ ion. The ZnSe:Eu3+/Mn2+@ZnS QDs presented high cell viability above 85% and induced no cell activation. The detailed analyses of QDs-treated cells by dual mode fluorescence CytoViva microscopy confirmed the systematic color-tunable fluorescence and its intensity enhances as a function of incubation time. The QDs were internalized by the cells predominantly via macropinocytosis and other lipid raft-mediated endocytic pathways, retaining an efficient amount for 24 h. The unique color tunability and consistent high intensity emission make these QDs useful for developing a multiplex fluorescent bionanoprobe, activatable in wide-visible region.

Como referenciar

KHAN, ZAHID U.; UCHIYAMA, MAYARA K.; KHAN, LATIF U.; ARAKI, KOITI; GOTO, HIRO; FELINTO, MARIA C.F.C.; SOUZA, ANA O. de; BRITO, HERMI F. de; GIDLUND, MAGNUS. Wide visible-range activatable fluorescence ZnSe:Eu3+/Mn2+@ZnS quantum dots: local atomic structure order and application as a nanoprobe for bioimaging. Journal of Materials Chemistry B, v. 10, n. 2, p. 247-261, 2022. DOI: 10.1039/d1tb01870a. Disponível em: http://repositorio.ipen.br/handle/123456789/33032. Acesso em: 24 Apr 2024.

Esta referência é gerada automaticamente de acordo com as normas do estilo IPEN/SP (ABNT NBR 6023) e recomenda-se uma verificação final e ajustes caso necessário.