金红石TiO2基质中[MoO<SUB>4</SUB>]<SUP>2-</SUP>基团的上转换发光

无机材料学报, 2003, 18(3): 681-685.

金红石TiO2基质中[MoO₄]^2-基团的上转换发光

吴长锋 , 秦伟平 , 秦冠仕 , 赵丹 , 张继森

国科学院长春光学精密机械与物理研究所激发态物理重点实验室长春 130022

Key Laboratory of Excited State Processes

Changchun Institute of Optics

Fine Mechanics and Physics

Changchun 130022

关键词：上转换 , TiO2 , [MoO₄]^2-

Near-Infrared-to-Visible Photon Upconversion of [MoO₄]^2- Complexes Doped in Rutile Titania

WU Chang-Feng , QIN Wei-Ping , QIN Guan-Shi , ZHAO Dan , ZhANG Ji-Sen

Keywords： upconversion , TiO₂ , [MoO₄]^2-

在978nm激光二极管的激发下,Mo掺杂的TiO₂材料表现出很强的宽带上转换发光,该发光来源于[MoO₄]^2-基团的激发态³T₁,³T₂能级到基态¹A₁能级的电子跃迁,X射线衍射表明样品为金红石单一相,红外吸收光谱证实了[MoO₄]^2-的存在,由光电子能谱推测体系中还含有低价态的Mo离子,它们提供了上转换得以进行的中间态,高温下的氧化还原处理会改变低价Mo的数量,从而严重影响样品的发光行为。

Mo-doped titania excited by a 978nm diode laser exhibits a visible broadband emission which can be controlled by high-temperature chemical redox. The
luminescence has been assigned to the transitions from the excited states ³T₁, ³T₂ to the ground state ¹A₁ of the [MoO₄]^2- radicle. FTIR spectrum
confirms the presence of the [MoO₄]^2-complexes, while XPS measurement suggests the concurrent existence of lower valent Mo species. The intermediate states
available for upconversion are supposed to be related to the lower valent Mo species through which the external chemical redox modifies the luminescence.

参考文献

[1]

Sandrock T, Scheife H, Heumann E, et al. Opt. Lett., 1997, 22: 808--810.
[2] Dowing E, Hesselink L, Ralston J, et al. Science, 1996, 273: 1185--1189.
[3] Chivian J S, Case W E, Eden D D. Appl. Phys. Lett., 1979, 35: 124--126.
[4] Valiente R, Wenger O S, Güdel H U. Phys. Rev. B., 2001, 63: 165102-1165111.
[5] Oetliker U, Riley M J, May P S, et al. Coord. Chem. Rev., 1991, 111: 125--130.
[6] Gamelin D R, Güdel H U. J. Am. Chem. Soc., 1998, 120: 12143--12144.
[7] Gamelin D R, Güdel H U. Inorg. Chem., 1999, 38: 5154--5164.
[8] Wermuth M, Güdel H U. J. Chem. Phys., 2001, 114: 1393--1401.
[9] Gamelin D R, Güdel H U. J. Phys. Chem., 2000, 104: 10222--10234.
[10] Conde-Gallardo A, Garcia-Rocha M, Hernandez-Calderon I, et al. Appl. Phys. Lett., 2001, 78: 3436--3438.
[11] Ting Chu-Chi, Chen San-Yuan, Hsieh Wen-Feng, et al. J. Appl. Phys., 2001, 90: 5564--5594.
[12] Busey R H, Kellar O L. J. Chem. Phys., 1964, 41: 215--225.
[13] Maczka M. J. Sol. Stat. Chem., 1997, 129: 287--297.
[14] Swartz W E Jr, Hercules D M. Anal. Chem., 197, 143: 1774--1779.
[15] Bohm M, Borisevich A E, Drobychev G Y, et al. Phys. Stat. Sol., (a), 1998, 167: 243--252.
[16] Kebabcioglu R, Müller A. Chem. Phys. Lett., 1971, 8: 59.
[17] Grasser R, Scharmann A, Strack K R. J. Lumin., 1982, 27: 263--272.
[18] Ryba-Romanowski W, Golab S, Solarz P, et al. Appl. Phys. Lett., 2002, 80: 1183--1185.

上一张下一张

计量

下载量()
访问量()

作者相关

文章评分

您的评分：
1

0%
2

0%
3

0%
4

0%
5

0%

材料期刊网

金红石TiO2基质中[MoO4]2-基团的上转换发光

Near-Infrared-to-Visible Photon Upconversion of [MoO4]2- Complexes Doped in Rutile Titania

参考文献

金红石TiO2基质中[MoO₄]^2-基团的上转换发光

Near-Infrared-to-Visible Photon Upconversion of [MoO₄]^2- Complexes Doped in Rutile Titania