Investigations on multi-photon emissions of Nd3+-sensitized core/shell nanoparticles

The past few years witnessed extensive emergence of short-wavelength upconversion(UC) emission stimulated photoactivation studies. However, low efficiency of multi-photon process greatly limits further applications. Here, ultraviolet(UV) upconversion emissions originated from multi-photon process of...

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Published inJournal of rare earths Vol. 35; no. 1; pp. 1 - 6
Main Author 张格 董浩 王棣 孙聆东 严纯华
Format Journal Article
LanguageEnglish
Published Elsevier B.V 2017
Subjects
core/shell nanoparticle
multi-photon
Nd3+ sensitizer
rare earths
upconversion emission
Nd3+ sensitizer
upconversion emission
core/shell nanoparticle
multi-photon
rare earths
Online AccessGet full text
ISSN1002-0721
2509-4963
DOI10.1016/S1002-0721(16)60165-5

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Abstract The past few years witnessed extensive emergence of short-wavelength upconversion(UC) emission stimulated photoactivation studies. However, low efficiency of multi-photon process greatly limits further applications. Here, ultraviolet(UV) upconversion emissions originated from multi-photon process of Tm3+ were studied with Nd3+-sensitized NaGdF4:Yb,Tm@NaYF4:Nd,Yb core/shell nanoparticles. Crucial factors, including the contents of sensitizers Nd3+, Yb3+ and activator Tm3+, as well as the excitation power density were investigated based on the UV emission. Spectral results showed that high contents of Nd3+ in shell region up to 50%(molar fraction hereafter) and Yb3+ of 10% were essential to mediate the energy transfer via the core/shell interface and facilitate multi-photon UV emissions. Compared with segregated activator and sensitizer, a core/shell strategy with isolated Nd3+ in the shell was important for higher UV emission. Although the upconverting process was initiated with Nd3+→Yb3+, the short-wavelength emissions were intrinsically coming from four- and five-photon process. The optimized nanoparticles were found to be able to manipulate the configuration transition of azobenzene molecules, and it could be promising for near infrared(NIR) triggered optical switches applications.
AbstractList The past few years witnessed extensive emergence of short-wavelength upconversion (UC) emission stimulated photoactivation studies. However, low efficiency of multi-photon process greatly limits further applications. Here, ultraviolet (UV) upconversion emissions originated from multi-photon process of Tm3+ were studied with Nd3+-sensitized NaGdF4:Yb, Tm@NaYF4:Nd, Yb core/shell nanoparticles. Crucial factors, including the contents of sensitizers Nd3+, Yb3+ and activator Tm3+, as well as the excitation power density were investigated based on the UV emission. Spectral results showed that high contents of Nd3+ in shell region up to 50% (molar fraction hereafter) and Yb3+ of 10% were essential to mediate the energy transfer via the core/shell interface and facilitate multi-photon UV emissions. Compared with segregated activator and sensitizer, a core/shell strategy with isolated Nd3+ in the shell was important for higher UV emission. Although the upconverting process was initiated with Nd3+→Yb3+, the short-wavelength emissions were intrinsically coming from four- and five-photon process. The optimized nanoparticles were found to be able to manipulate the configuration transition of azobenzene molecules, and it could be promising for near infrared (NIR) triggered optical switches applications. Ultraviolet (UV) upconversion emissions originated from multi-photon process of Tm3+ were studied with Nd3+-sensitized nanoparticles. Coexistence of Nd3+ and Yb3+ is essential to mediate the energy transfer via the core/shell interface. Although the upconverting process is initiated with Nd3+→Yb3+, the short-wavelength emissions are intrinsically coming from four- and five-photon process
The past few years witnessed extensive emergence of short-wavelength upconversion(UC) emission stimulated photoactivation studies. However, low efficiency of multi-photon process greatly limits further applications. Here, ultraviolet(UV) upconversion emissions originated from multi-photon process of Tm3+ were studied with Nd3+-sensitized NaGdF4:Yb,Tm@NaYF4:Nd,Yb core/shell nanoparticles. Crucial factors, including the contents of sensitizers Nd3+, Yb3+ and activator Tm3+, as well as the excitation power density were investigated based on the UV emission. Spectral results showed that high contents of Nd3+ in shell region up to 50%(molar fraction hereafter) and Yb3+ of 10% were essential to mediate the energy transfer via the core/shell interface and facilitate multi-photon UV emissions. Compared with segregated activator and sensitizer, a core/shell strategy with isolated Nd3+ in the shell was important for higher UV emission. Although the upconverting process was initiated with Nd3+→Yb3+, the short-wavelength emissions were intrinsically coming from four- and five-photon process. The optimized nanoparticles were found to be able to manipulate the configuration transition of azobenzene molecules, and it could be promising for near infrared(NIR) triggered optical switches applications.
Author 张格 董浩 王棣 孙聆东 严纯华
AuthorAffiliation Beijing National Laboratory for Molecular Sciences,State Key Laboratory of Rare Earth Materials Chemistry and Applications,PKU-HKU Joint Laboratory in Rare Earth Materials and Bioinorganic Chemistry,College of Chemistry and Molecular Engineering,Peking University
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Keywords Nd3+ sensitizer
upconversion emission
core/shell nanoparticle
multi-photon
rare earths
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Snippet The past few years witnessed extensive emergence of short-wavelength upconversion(UC) emission stimulated photoactivation studies. However, low efficiency of...
The past few years witnessed extensive emergence of short-wavelength upconversion (UC) emission stimulated photoactivation studies. However, low efficiency of...
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SubjectTerms core/shell nanoparticle
multi-photon
Nd3+ sensitizer
rare earths
upconversion emission
Title Investigations on multi-photon emissions of Nd3+-sensitized core/shell nanoparticles
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