Control of photoinduced fluorescence enhancement of colloidal quantum dots using metal oxides

S. M. Sadeghi, Waylin J Wing, K. Patty, Q. Campbell
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引用次数: 1

Abstract

It is well known that irradiation of colloidal quantum dots can dramatically enhance their emission efficiencies, leading to so-called photoinduced fluorescence enhancement (PFE). This process is the result of the photochemical and photophysical properties of quantum dots and the way they interact with the environment in the presence of light. It has been shown that such properties can be changed significantly using metal oxides. Using spectroscopic techniques, in this paper we investigate emission of different types of quantum dots (with and without shell) in the presence of metal oxides with opposing effects. We observed significant increase of PFE when quantum dots are deposited on about one nanometer of aluminum oxide, suggesting such oxide can profoundly increase quantum yield of such quantum dots. On the other hand, copper oxide can lead to significant suppression of emission of quantum dots, making them nearly completely dark instantly.
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利用金属氧化物控制胶体量子点的光致荧光增强
众所周知,胶体量子点的辐照可以显著提高其发射效率,从而导致所谓的光致荧光增强(PFE)。这一过程是量子点的光化学和光物理特性以及它们在光的存在下与环境相互作用的结果。已经证明,使用金属氧化物可以显著改变这种性质。利用光谱技术,我们研究了不同类型的量子点(带壳和不带壳)在具有相反效应的金属氧化物存在下的发射。我们观察到,当量子点沉积在大约1纳米的氧化铝上时,PFE显著增加,这表明这种氧化物可以大大提高量子点的量子产率。另一方面,氧化铜可以显著抑制量子点的发射,使它们几乎瞬间完全变暗。
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