標題: A facile method to prepare "green" nano-phosphors with a large Stokes-shift and solid-state enhanced photophysical properties based on surface-modified gold nanoclusters
作者: Cheng, C. H.
Huang, H. Y.
Talite, M. J.
Chou, W. C.
Yeh, J. M.
Yuan, C. T.
電子物理學系
Department of Electrophysics
關鍵字: Gold nano-clusters;Solid-state nano-phosphors;Aggregation-induced PL quenching;Stokes shift;Reabsorption
公開日期: 15-Dec-2017
摘要: Colloidal nano-materials, such as quantum dots (QDs) have been applied to light-conversion nano phosphors due to their unique tunable emission. However, most of the QDs involve toxic elements and are synthesized in a hazardous solvent. In addition, conventional QD nano-phosphors with a small Stokes shift suffered from reabsorption losses and aggregation-induced quenching in the solid state. Here, we demonstrate a facile, matrix-free method to prepare eco-friendly nano-phosphors with a large Stokes shift based on aqueous thiolate-stabilized gold nanoclusters (GSH-AuNCs) with simple surface modifications. Our method is just to drop GSH-AuNCs solution on the aluminum foil and then surface modified AuNCs (Al-GSH-AuNCs) can be spontaneously precipitated out of the aqueous solution. Compared with pristine GSH-AuNCs in solution, the Al-GSH-AuNCs exhibit enhanced solid-state PL quantum yields, lengthened PL lifetime, and spectral blue shift, which can be attributed to the aggregation induced emission enhancement facilitated by surface modifications. Such surface-treatment induced aggregation of AuNCs can restrict the surface-ligand motion, leading to the enhancement of PL properties in the solid state. In addition, the Al-GSH-AuNCs nano-phosphors with a large Stokes shift can mitigate the aggregation-induced PL quenching and reabsorption losses, which would be potential candidates for "green" nano-phosphors. (C) 2017 Elsevier Inc. All rights reserved.
URI: http://dx.doi.org/10.1016/j.jcis.2017.08.020
http://hdl.handle.net/11536/143869
ISSN: 0021-9797
DOI: 10.1016/j.jcis.2017.08.020
期刊: JOURNAL OF COLLOID AND INTERFACE SCIENCE
Volume: 508
起始頁: 105
結束頁: 111
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