G. Y. Chen scite author profile

To develop fluorescent labels for multicolor imaging, rare-earth-ion-doped ZrO 2 nanocrystals were prepared by a complex precursor method. Laser excitation of 976 nm induced single fluorescent bands of green and red upconversion ͑UC͒ in ZrO 2 :Er 3+ and ZrO 2 :Er 3+ +Yb 3+ nanocrystals, respectively. A suppression ratio ͑SR͒ parameter was introduced, defined as the UC intensity ratio of the main band to all the other detected impurity bands, and SR values in the order of 10-100 were experimentally obtained, demonstrating the excellent monochromaticity of the UC labels. Thus, the two-color UC labels obtained are potentially ideal to be used for biological multicolor imaging.

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Bright white upconversion luminescence in rare-earth-ion-doped Y2O3 nanocrystals

Chen

Liu

Zhang

et al. 2007

177

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Room temperature bright white upconversion (UC) luminescence in Yb3+–Tm3+–Er3+ ions doped Y2O3 nanocrystals was obtained under single-wavelength diode laser excitation of 976nm. The white light consists of the blue, green, and red UC radiations which correspond to the transitions G41→H63 of Tm3+, H11∕22∕S3∕24→I15∕24, and F9∕24→I15∕24 of Er3+ ions, respectively. The UC mechanisms were proposed based on spectral, kinetic, and pump power dependence analyses. The calculated color coordinates display that white light can be achieved in a wide range of pumping powers, which promises their potential applications in the field of displays, lasers, photonics, and biomedicine.

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Ultraviolet-blue upconversion emissions of Ho^3+ ions

et al. 2010

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Ultraviolet upconversion fluorescence in rare-earth-ion-doped Y_2O_3 induced by infrared diode laser excitation

et al. 2006

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Room-temperature ultraviolet emission of Tm(3+) ions at 298 ((1)I(6)-->(3)H(6)), 364 ((1)D(2)-->(3)H(6)), and 391 nm ((1)I(6)-->(3)H(5)) was obtained in Y(2)O(3):Yb(3+)-Tm(3+) by continuous-wave diode laser excitation of 980 nm. Power dependence analysis demonstrates that five- and six-photon upconversion processes populate the (1)D(2) and (1)I(6) states, respectively. We believe that the (1)D(2) population originates from the cross relaxation (1)G(4)+(3)F(4)-->(3)H(4)+(1)D(2) of the Tm(3+) ions, while subsequent energy transfer from Yb(3+) to Tm(3+) excites the (1)D(2) state to the upper (1)I(6) state. High multiphoton-induced ultraviolet emission is also expected for other trivalent rare-earth ions similar to Tm(3+).

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G. Y. Chen

Two-color upconversion in rare-earth-ion-doped ZrO2 nanocrystals

Bright white upconversion luminescence in rare-earth-ion-doped Y2O3 nanocrystals

Ultraviolet-blue upconversion emissions of Ho^3+ ions

Ultraviolet upconversion fluorescence in rare-earth-ion-doped Y_2O_3 induced by infrared diode laser excitation

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