通过一锅接枝法增强石墨相氮化碳颗粒在水相和有机相中的分散性。

Enhanced Dispersibility of Graphitic Carbon Nitride Particles in Aqueous and Organic Media via a One-Pot Grafting Approach.

机构信息

Department of Colloid Chemistry, Max Planck Institute of Colloids and Interfaces , Research Campus Golm, 14424 Potsdam, Germany.

出版信息

Langmuir. 2017 Sep 26;33(38):9897-9906. doi: 10.1021/acs.langmuir.7b02441. Epub 2017 Sep 7.

DOI:10.1021/acs.langmuir.7b02441

PMID:28845993

Abstract

A facile route to synthesize hydrophilically or hydrophobically grafted graphitic carbon nitride (g-CN) is reported. For this purpose, functionalized olefinic molecules with a low polymerization tendency are utilized for grafting onto the surface to preserve the features of g-CN while improving its dispersibility. One-pot, visible light-induced grafting yields highly dispersible g-CNs either in aqueous or organic media. Moreover, functional groups such as amines can be introduced, which yields pH-dependent dispersibility in aqueous media. Compared with unfunctionalized g-CN, low sonication times are sufficient to redisperse g-CN. In addition, because of increased dispersion stability, higher amounts of functionalized g-CN can be dispersed (up to 10% in aqueous dispersion and 2% in organic dispersion) when compared to unfunctionalized g-CN.

摘要

本文报道了一种简便的方法来合成亲水性或疏水性接枝石墨相氮化碳（g-CN）。为此，利用具有低聚合倾向的官能化烯烃分子接枝到表面上，在保持 g-CN 特性的同时提高其分散性。一锅法、可见光诱导接枝可在水相或有机相中得到高度分散的 g-CNs。此外，可以引入胺等官能团，使其在水相介质中表现出 pH 依赖性分散性。与未官能化的 g-CN 相比，超声时间较短就能使其再分散。此外，由于分散稳定性的提高，与未官能化的 g-CN 相比，可以分散更多的官能化 g-CN（在水性分散体中高达 10%，在有机分散体中高达 2%）。

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通过一锅接枝法增强石墨相氮化碳颗粒在水相和有机相中的分散性。

Enhanced Dispersibility of Graphitic Carbon Nitride Particles in Aqueous and Organic Media via a One-Pot Grafting Approach.

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