Department of Chemical Engineering, Pohang University of Science and Technology (POSTECH), Pohang, 790-784, Republic of Korea.
Small. 2014 Feb 12;10(3):506-13. doi: 10.1002/smll.201301770. Epub 2013 Sep 9.
Size-controlled soft-template synthesis of carbon nanodots (CNDs) as novel photoactive materials is reported. The size of the CNDs can be controlled by regulating the amount of an emulsifier. As the size increases, the CNDs exhibit blue-shifted photoluminescence (PL) or so-called an inverse PL shift. Using time-correlated single photon counting, ultraviolet photoelectron spectroscopy, and low-temperature PL measurements, it is revealed that the CNDs are composed of sp² clusters with certain energy gaps and their oleylamine ligands act as auxochromes to reduce the energy gaps. This insight can provide a plausible explanation on the origin of the inverse PL shift which has been debatable over a past decade. To explore the potential of the CNDs as photoactive materials, several prototypes of CND-based optoelectronic devices, including multicolored light-emitting diodes and air-stable organic solar cells, are demonstrated. This study could shed light on future applications of the CNDs and further expedite the development of other related fields.
本文报道了一种通过尺寸控制的软模板法合成碳点(CNDs)作为新型光活性材料的方法。通过调节乳化剂的用量可以控制 CNDs 的尺寸。随着尺寸的增加,CNDs 表现出蓝移的光致发光(PL)或所谓的反向 PL 移动。通过时间相关单光子计数、紫外光电子能谱和低温 PL 测量,揭示了 CNDs 由具有一定能隙的 sp² 簇组成,其油胺配体作为助色团,降低了能隙。这一见解为过去十年中一直存在争议的反向 PL 移动的起源提供了一个合理的解释。为了探索 CNDs 作为光活性材料的潜力,本文展示了几种基于 CND 的光电设备原型,包括多色发光二极管和空气稳定的有机太阳能电池。这项研究为 CNDs 的未来应用提供了启示,并进一步加速了其他相关领域的发展。
