Center for NanoBio Integration (CNBI), The University of Tokyo, Tokyo, Japan.
J Sep Sci. 2011 Oct;34(20):2866-71. doi: 10.1002/jssc.201100247. Epub 2011 May 20.
Single-walled carbon nanotubes (SWNTs) are now widely used in many fields, and while many analytical methods for SWNTs have been reported, there are few practical analytical methods that combine the necessary levels of selectivity and sensitivity. We have developed a highly sensitive separation method for fluorescence-derivatized SWNTs by means of conventional CE with laser-induced fluorescence. First, SWNTs were dispersed using a triphenylene derivative into the water, and the excess dispersant was removed by nitric acid treatment. The dispersed SWNTs were then derivatized with a fluorescence reagent, 4-aminofluorescein. Finally, the derivatized SWNTs were analyzed using a conventional apparatus CE-LIF detection. The SWNTs migrated within 20 min. The detection sensitivity of SWNTs was improved by about 170 times with LIF detection as compared with UV detection. We anticipate that the derivatized SWNTs can also be detected with high sensitivity using LC.
单壁碳纳米管 (SWNTs) 现在被广泛应用于许多领域,尽管已经有许多分析 SWNTs 的方法被报道,但很少有能够将必要的选择性和灵敏度结合起来的实用分析方法。我们已经开发出一种通过常规 CE 与激光诱导荧光相结合来对荧光衍生化 SWNTs 进行高灵敏度分离的方法。首先,将三联苯衍生物用于将 SWNTs 分散到水中,并通过硝酸处理去除多余的分散剂。然后,用荧光试剂 4-氨基荧光素对分散的 SWNTs 进行衍生化。最后,使用常规 CE-LIF 检测仪器对衍生化的 SWNTs 进行分析。SWNTs 在 20 分钟内迁移。与 UV 检测相比,使用 LIF 检测将 SWNTs 的检测灵敏度提高了约 170 倍。我们预计使用 LC 也可以对衍生化的 SWNTs 进行高灵敏度检测。