Department of Environmental Science, Zhejiang University, Hangzhou 310028, China.
Environ Sci Technol. 2010 Apr 15;44(8):3021-7. doi: 10.1021/es100018a.
Competitive adsorption between nonpolar organic compounds and polar ionic organic compounds (IOCs) on carbon nanotubes (CNTs) is essential for application of CNTs as superior sorbents and for environmental risk assessment of both CNTs and organic contaminants. It was observed in this study that adsorption of neutral and dissociated species of polar 2,4-dichlorophenol (DCP) and 4-chloroaniline (PCAN) on a multiwalled CNT sample (MWCNT15) can be suppressed by nonpolar naphthalene. Naphthalene adsorption can also be suppressed by neutral DCP/PCAN, but not dissociated DCP/PCAN. Moreover, competition of naphthalene decreased the adsorption affinity of neutral DCP/PCAN, but not their adsorption capacity because of the formation of solute bilayer on MWCNT15. For dissociated DCP/PCAN, naphthalene not only decreased their adsorption affinity but also their adsorption capacity because no solute bilayer was formed. Neutral DCP/PCAN also decreased the adsorption affinity and adsorption capacity of naphthalene. These observations indicate that competitive adsorption of naphthalene with DCP/PCAN depends on the dissociation of DCP/PCAN, as interpreted by (i) the different sites on CNTs for adsorption of organic chemicals (i.e., naphthalene, and the neutral and dissociated species of DCP/PCAN), (ii) the interactions between organic chemicals, and (iii) the interactions of organic chemicals with CNT surface.
非极性有机化合物和极性离子有机化合物(IOCs)在碳纳米管(CNTs)上的竞争吸附对于 CNTs 作为优异吸附剂的应用以及 CNTs 和有机污染物的环境风险评估都至关重要。本研究观察到,在多壁 CNT 样品(MWCNT15)上,中性和离解态的极性 2,4-二氯苯酚(DCP)和 4-氯苯胺(PCAN)的吸附可以被非极性萘抑制。中性 DCP/PCAN 也可以抑制萘的吸附,但不能抑制离解的 DCP/PCAN。此外,由于在 MWCNT15 上形成了溶质双层,萘的竞争降低了中性 DCP/PCAN 的吸附亲和力,但没有降低其吸附量。对于离解的 DCP/PCAN,萘不仅降低了它们的吸附亲和力,也降低了它们的吸附量,因为没有形成溶质双层。中性 DCP/PCAN 也降低了萘的吸附亲和力和吸附量。这些观察结果表明,萘与 DCP/PCAN 的竞争吸附取决于 DCP/PCAN 的离解,这可以通过以下三个方面来解释:(i) CNTs 上吸附有机化学品的不同位置(即萘,以及 DCP/PCAN 的中性和离解态);(ii)有机化学品之间的相互作用;(iii)有机化学品与 CNT 表面的相互作用。
