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- Title
Transformation and destabilization of graphene oxide in reducing aqueous solutions containing sulfide.
- Authors
Fu, Heyun; Qu, Xiaolei; Chen, Wei; Zhu, Dongqiang
- Abstract
The colloidal stability of carbon nanomaterials is a key factor controlling their fate and bioavailability in natural aquatic systems. The authors report that graphene oxide nanoparticles could be destabilized in reducing aqueous solutions containing a low concentration (0.5 mM) of sulfide, a naturally occurring reductant. Spectroscopic characterization using combined X-ray photoelectron, Fourier-transform infrared, X-ray diffraction, and Raman analyses revealed that the surface oxygen-containing groups (mainly epoxy groups) of graphene oxide were significantly reduced after reacting with sodium sulfide. The destabilization of graphene oxide was likely caused by the enhanced surface hydrophobicity of the reduced graphene oxide, whereas electrostatic repulsion played a minimal role. Solution pH was found to affect both the deoxygenation process and the aggregation behavior of graphene oxide. Coexisting humic acid reduced the reaction efficiency and stabilized graphene oxide through steric hindrance. These findings suggest for the first time that the colloidal behavior of carbon nanomaterials might change drastically when they enter natural reducing environments containing sulfide such as anaerobic aquifers and sediments. Environ Toxicol Chem 2014;33:2647-2653. © 2014 SETAC
- Subjects
GRAPHENE oxide; AQUEOUS solutions; SULFIDES; COLLOIDAL stability; NANOSTRUCTURED materials
- Publication
Environmental Toxicology & Chemistry, 2014, Vol 33, Issue 12, p2647
- ISSN
0730-7268
- Publication type
Article
- DOI
10.1002/etc.2730