Mechanistic investigation of photon upconversion in Nd3+- sensitized core-shell nanoparticles

Xiaoji Xie; Nengyue Gao; Renren Deng; Qiang Sun; Qing Hua Xu; Xiaogang Liu

doi:10.1021/ja4075002

Mechanistic investigation of photon upconversion in Nd³⁺- sensitized core-shell nanoparticles

Xiaoji Xie, Nengyue Gao, Renren Deng, Qiang Sun, Qing Hua Xu, Xiaogang Liu

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

698 Scopus citations

Abstract

A new type of core-shell upconversion nanoparticles which can be effectively excited at 795 nm has been designed and synthesized through spatially confined doping of neodymium (Nd³⁺) ions. The use of Nd³⁺ ions as sensitizers facilitates the energy transfer and photon upconversion of a series of lanthanide activators (Er³⁺, Tm ³⁺, and Ho³⁺) at a biocompatible excitation wavelength (795 nm) and also significantly minimizes the overheating problem associated with conventional 980 nm excitation. Importantly, the core-shell design enabled high-concentration doping of Nd³⁺ (∼20 mol %) in the shell layer and thus markedly enhanced the upconversion emission from the activators, providing highly attractive luminescent biomarkers for bioimaging without autofluorescence and concern of overheating.

Original language	English
Pages (from-to)	12608-12611
Number of pages	4
Journal	Journal of the American Chemical Society
Volume	135
Issue number	34
DOIs	https://doi.org/10.1021/ja4075002
State	Published - 28 Aug 2013
Externally published	Yes

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title = "Mechanistic investigation of photon upconversion in Nd3+- sensitized core-shell nanoparticles",

abstract = "A new type of core-shell upconversion nanoparticles which can be effectively excited at 795 nm has been designed and synthesized through spatially confined doping of neodymium (Nd3+) ions. The use of Nd3+ ions as sensitizers facilitates the energy transfer and photon upconversion of a series of lanthanide activators (Er3+, Tm 3+, and Ho3+) at a biocompatible excitation wavelength (795 nm) and also significantly minimizes the overheating problem associated with conventional 980 nm excitation. Importantly, the core-shell design enabled high-concentration doping of Nd3+ (∼20 mol %) in the shell layer and thus markedly enhanced the upconversion emission from the activators, providing highly attractive luminescent biomarkers for bioimaging without autofluorescence and concern of overheating.",

author = "Xiaoji Xie and Nengyue Gao and Renren Deng and Qiang Sun and Xu, {Qing Hua} and Xiaogang Liu",

year = "2013",

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T1 - Mechanistic investigation of photon upconversion in Nd3+- sensitized core-shell nanoparticles

AU - Xie, Xiaoji

AU - Gao, Nengyue

AU - Deng, Renren

AU - Sun, Qiang

AU - Xu, Qing Hua

AU - Liu, Xiaogang

PY - 2013/8/28

Y1 - 2013/8/28

N2 - A new type of core-shell upconversion nanoparticles which can be effectively excited at 795 nm has been designed and synthesized through spatially confined doping of neodymium (Nd3+) ions. The use of Nd3+ ions as sensitizers facilitates the energy transfer and photon upconversion of a series of lanthanide activators (Er3+, Tm 3+, and Ho3+) at a biocompatible excitation wavelength (795 nm) and also significantly minimizes the overheating problem associated with conventional 980 nm excitation. Importantly, the core-shell design enabled high-concentration doping of Nd3+ (∼20 mol %) in the shell layer and thus markedly enhanced the upconversion emission from the activators, providing highly attractive luminescent biomarkers for bioimaging without autofluorescence and concern of overheating.

AB - A new type of core-shell upconversion nanoparticles which can be effectively excited at 795 nm has been designed and synthesized through spatially confined doping of neodymium (Nd3+) ions. The use of Nd3+ ions as sensitizers facilitates the energy transfer and photon upconversion of a series of lanthanide activators (Er3+, Tm 3+, and Ho3+) at a biocompatible excitation wavelength (795 nm) and also significantly minimizes the overheating problem associated with conventional 980 nm excitation. Importantly, the core-shell design enabled high-concentration doping of Nd3+ (∼20 mol %) in the shell layer and thus markedly enhanced the upconversion emission from the activators, providing highly attractive luminescent biomarkers for bioimaging without autofluorescence and concern of overheating.

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Mechanistic investigation of photon upconversion in Nd³⁺- sensitized core-shell nanoparticles

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