College of Pharmaceutical Sciences, Key Laboratory of Luminescent and Real-Time Analytical Chemistry (Ministry of Education), Southwest University, Chongqing 400715, China.
Nanoscale. 2019 Aug 29;11(34):16036-16042. doi: 10.1039/c9nr03989a.
Currently, the synthesis and applications of room-temperature phosphorescent (RTP) materials are promising, but challenging. Herein, a kind of ultra-long phosphorescent carbon dots (P-CDs) were rapidly prepared through a facile microwave-directed method. In particular, the yellow-green phosphorescence of the P-CDs was observed for up to 9 s, and their fluorescence and phosphorescence were observed at 418 nm and 525 nm, respectively, using the same excitation at 354 nm. Moreover, the RTP intensity of the P-CDs gradually decreased with the increasing pH because of the protonation-dissociated hydrogen bonds and disturbed phosphorescence sources, whereas their fluorescence exhibited general stability over a wide pH range of 2.1-12.68. Significantly, we found that both the fluorescence and the phosphorescence of the P-CDs were quenched by the introduction of tetracyclines (TCs). Specifically, the P-CDs described herein have abundant -COOH and -OH groups on their surfaces, which facilitate the linkage of CDs with TCs, thus resulting in the occurrence of an inner filter effect process (IFE). Moreover, the P-CDs showed potential as an ideal candidate for building up dual-channel assays towards the targets.
目前,室温磷光(RTP)材料的合成和应用具有很大的发展潜力,但同时也极具挑战性。在此,我们通过简便的微波导向法快速制备了一种超长磷光碳点(P-CDs)。特别的是,P-CDs 可以发出长达 9 秒的黄绿色磷光,其荧光和磷光分别在 354nm 激发下于 418nm 和 525nm 处观察到。此外,由于质子化-氢键解离和磷光猝灭源的干扰,P-CDs 的 RTP 强度随着 pH 值的增加而逐渐降低,而其荧光在 pH 值为 2.1-12.68 的较宽范围内表现出一般的稳定性。值得注意的是,我们发现四环素(TCs)的引入会猝灭 P-CDs 的荧光和磷光。具体来说,P-CDs 表面含有丰富的-COOH 和-OH 基团,这有利于将 CDs 与 TCs 连接起来,从而导致内滤效应(IFE)的发生。此外,P-CDs 有望成为构建针对目标物的双通道分析方法的理想候选物。
