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Gd<sup>3+</sup>取代对 Y/Eu 层状稀土氢氧化物(LRH)纳米板的晶体结构、点群对称性和光致发光的影响。

The effects of Gd3+ substitution on the crystal structure, site symmetry, and photoluminescence of Y/Eu layered rare-earth hydroxide (LRH) nanoplates.

机构信息

Key Laboratory for Anisotropy and Texture of Materials (Ministry of Education), School of Materials and Metallurgy, Northeastern University, Shenyang, Liaoning 110004, China.

出版信息

Dalton Trans. 2012 Feb 14;41(6):1854-61. doi: 10.1039/c1dt11332a. Epub 2011 Dec 14.

DOI:10.1039/c1dt11332a
PMID:22166953
Abstract

Well crystallized nanoplates of the (Y(0.95-x)Gd(x)Eu(0.05))(2)(OH)(5)NO(3)·nH(2)O ternary layered rare-earth hydroxides (LRHs), synthesized hydrothermally, have been investigated with emphasis on the effects of Gd(3+) substitution for Y(3+) on the structural features and optical properties. Characterizations of the materials were achieved by the combined techniques of XRD, FT-IR, TEM, DTA/TG, and optical spectroscopies. The results showed that Gd(3+) substitution leads to linearly expanded ab plane, shortened interlayer distance (c/2), and reduced hydration (smaller n value) of the crystal structure. As a consequence, the Ln(3+) partially shifts from the C(4v) to C(1) site symmetries and thus leads to systematically altered photoluminescence behaviors. Under the (7)F(0)→(5)L(6) transition excitation of Eu(3+) at 394 nm, both the (5)D(0)→(7)F(2) to (5)D(0)→(7)F(4) and the 595 nm (5)D(0)→(7)F(1) to 590 nm (5)D(0)→(7)F(1) intensity ratios linearly increase towards a higher Gd(3+) content. The incorporated Gd(3+) cations selectively sensitize emission from the C(1)-site Eu(3+) and produce a new charge transfer (CT) excitation band at ∼254 nm. With this, the desired 615-nm red emission is obtainable either under intra-4f(6) transition excitation of Eu(3+) or by exciting the CT band. The materials have similar fluorescence lifetimes of 0.85 ± 0.05 ms for the 615-nm emission, irrespective of the Gd(3+) content and excitation wavelength.

摘要

水热合成的(Y(0.95-x)Gd(x)Eu(0.05))(2)(OH)(5)NO(3)·nH(2)O 三元层状稀土氢氧化物 (LRHs) 的结晶纳米板已被研究,重点是 Gd(3+)取代 Y(3+)对结构特征和光学性质的影响。通过 XRD、FT-IR、TEM、DTA/TG 和光谱学等综合技术对材料进行了表征。结果表明,Gd(3+)取代导致 ab 平面线性膨胀、层间距离缩短 (c/2) 和结晶水减少 (n 值较小)。因此,Ln(3+)部分从 C(4v)移至 C(1)点群对称性,从而导致系统地改变了光致发光行为。在 394nm 下,Eu(3+)的 (7)F(0)→(5)L(6)跃迁激发下,(5)D(0)→(7)F(2)至 (5)D(0)→(7)F(4)和 595nm(5)D(0)→(7)F(1)至 590nm(5)D(0)→(7)F(1)的强度比均随 Gd(3+)含量的增加而线性增加。掺入的 Gd(3+)阳离子选择性敏化来自 C(1)位 Eu(3+)的发射,并在 ∼254nm 处产生新的电荷转移 (CT) 激发带。通过这种方式,可以通过 Eu(3+)的内 4f(6)跃迁激发或激发 CT 带获得所需的 615nm 红色发射。无论 Gd(3+)含量和激发波长如何,材料在 615nm 发射时的荧光寿命均为 0.85±0.05ms。

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