Hou Bo, Cho Yuljae, Kim Byung-Sung, Ahn Docheon, Lee Sanghyo, Park Jong Bae, Lee Young-Woo, Hong John, Im Hyunsik, Morris Stephen M, Sohn Jung Inn, Cha SeungNam, Kim Jong Min
Department of Engineering Science , University of Oxford , Parks Road , Oxford OX1 3PJ , UK . Email:
Beamline Department , Pohang Accelerator Laboratory , Pohang 790-784 , Republic of Korea.
J Mater Chem C Mater. 2017 Apr 21;5(15):3692-3698. doi: 10.1039/c7tc00576h. Epub 2017 Mar 23.
Visible emission colloidal quantum dots (QDs) have shown promise in optical and optoelectronic applications. These QDs are typically composed of relatively expensive elements in the form of indium, cadmium, and gallium since alternative candidate materials exhibiting similar properties are yet to be realized. Herein, for the first time, we report red green blue (RGB) photoluminescences with quantum yields of 18% from earth-abundant lead sulfide (PbS) QDs. The visible emissive property is mainly attributed to a high degree of crystallinity even for the extremely small QD sizes (1-3 nm), which is realized by employing a heterogeneous reaction methodology at high growth temperatures (>170 °C). We demonstrate that the proposed heterogeneous synthetic method can be extended to the synthesis of other metal chalcogenide QDs, such as zinc sulfide and zinc selenide, which are promising for future industrial applications. More importantly, benefiting from the enlarged band gaps, the as-prepared PbS solar cells show an impressive open circuit voltage (∼0.8 V) beyond that reported to date.
可见发射胶体量子点(QDs)在光学和光电子应用中已展现出潜力。这些量子点通常由铟、镉和镓等相对昂贵的元素组成,因为尚未实现具有类似性质的替代候选材料。在此,我们首次报道了由地球上储量丰富的硫化铅(PbS)量子点产生的量子产率为18%的红、绿、蓝(RGB)光致发光。即使对于极小尺寸(1 - 3纳米)的量子点,其可见发射特性主要归因于高度的结晶度,这是通过在高温(>170°C)下采用非均相反应方法实现的。我们证明所提出的非均相合成方法可以扩展到其他金属硫族化物量子点的合成,如硫化锌和硒化锌,它们在未来工业应用中具有前景。更重要的是,受益于扩大的带隙,所制备的PbS太阳能电池显示出令人印象深刻的开路电压(约0.8 V),超过了迄今为止报道的数值。
