Double-layer silica core-shell nanospheres with superparamagnetic and fluorescent functionalities

Ling Li; Eugene Shi Guang Choo; Zhaoyang Liu; Jun Ding; Junmin Xue

doi:10.1016/j.cplett.2008.07.005

Double-layer silica core-shell nanospheres with superparamagnetic and fluorescent functionalities

Ling Li, Eugene Shi Guang Choo, Zhaoyang Liu, Jun Ding, Junmin Xue^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

39 Citations (Scopus)

Abstract

Superparamagnetic nanocrystals and QDs have attracted much attention due to their great potential in biomedical applications. In this Letter, the interest arises from the possibility of positioning magnetic and optical particles at different layers in a silica core-shell structure. In this double layered core-shell structure, QDs are sandwiched between the core and shell silica layers, whereas Fe₃O₄ nanoparticles are entrapped in the core. This structure was designed with the idea of preventing direct contact between QDs and Fe₃O₄ nanoparticles, thus minimizing the 'quenching effect' and achieving high quality magnetic-fluorescent dual functionality. The obtained double-layer silica nanospheres are promising candidates for applications in simultaneous biolabeling, imaging, cell sorting and separation.

Original language	English
Pages (from-to)	114-117
Number of pages	4
Journal	Chemical Physics Letters
Volume	461
Issue number	1-3
DOIs	https://doi.org/10.1016/j.cplett.2008.07.005
Publication status	Published - 8 Aug 2008
Externally published	Yes

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10.1016/j.cplett.2008.07.005

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title = "Double-layer silica core-shell nanospheres with superparamagnetic and fluorescent functionalities",

abstract = "Superparamagnetic nanocrystals and QDs have attracted much attention due to their great potential in biomedical applications. In this Letter, the interest arises from the possibility of positioning magnetic and optical particles at different layers in a silica core-shell structure. In this double layered core-shell structure, QDs are sandwiched between the core and shell silica layers, whereas Fe3O4 nanoparticles are entrapped in the core. This structure was designed with the idea of preventing direct contact between QDs and Fe3O4 nanoparticles, thus minimizing the 'quenching effect' and achieving high quality magnetic-fluorescent dual functionality. The obtained double-layer silica nanospheres are promising candidates for applications in simultaneous biolabeling, imaging, cell sorting and separation.",

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AU - Li, Ling

AU - Choo, Eugene Shi Guang

AU - Liu, Zhaoyang

AU - Ding, Jun

AU - Xue, Junmin

PY - 2008/8/8

Y1 - 2008/8/8

N2 - Superparamagnetic nanocrystals and QDs have attracted much attention due to their great potential in biomedical applications. In this Letter, the interest arises from the possibility of positioning magnetic and optical particles at different layers in a silica core-shell structure. In this double layered core-shell structure, QDs are sandwiched between the core and shell silica layers, whereas Fe3O4 nanoparticles are entrapped in the core. This structure was designed with the idea of preventing direct contact between QDs and Fe3O4 nanoparticles, thus minimizing the 'quenching effect' and achieving high quality magnetic-fluorescent dual functionality. The obtained double-layer silica nanospheres are promising candidates for applications in simultaneous biolabeling, imaging, cell sorting and separation.

AB - Superparamagnetic nanocrystals and QDs have attracted much attention due to their great potential in biomedical applications. In this Letter, the interest arises from the possibility of positioning magnetic and optical particles at different layers in a silica core-shell structure. In this double layered core-shell structure, QDs are sandwiched between the core and shell silica layers, whereas Fe3O4 nanoparticles are entrapped in the core. This structure was designed with the idea of preventing direct contact between QDs and Fe3O4 nanoparticles, thus minimizing the 'quenching effect' and achieving high quality magnetic-fluorescent dual functionality. The obtained double-layer silica nanospheres are promising candidates for applications in simultaneous biolabeling, imaging, cell sorting and separation.

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Double-layer silica core-shell nanospheres with superparamagnetic and fluorescent functionalities

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