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Carbon nanotube membranes with ultrahigh specific adsorption capacity for water desalination and purification

2013; Nature Portfolio; Volume: 4; Issue: 1 Linguagem: Inglês

10.1038/ncomms3220

2041-1723

Hui Ying Yang, Zhaojun Han, S. F. Yu, K. L. Pey, Kostya Ostrikov, Rohit Karnik,

Membrane-based Ion Separation Techniques

Development of technologies for water desalination and purification is critical to meet the global challenges of insufficient water supply and inadequate sanitation, especially for point-of-use applications. Conventional desalination methods are energy and operationally intensive, whereas adsorption-based techniques are simple and easy to use for point-of-use water purification, yet their capacity to remove salts is limited. Here we report that plasma-modified ultralong carbon nanotubes exhibit ultrahigh specific adsorption capacity for salt (exceeding 400% by weight) that is two orders of magnitude higher than that found in the current state-of-the-art activated carbon-based water treatment systems. We exploit this adsorption capacity in ultralong carbon nanotube-based membranes that can remove salt, as well as organic and metal contaminants. These ultralong carbon nanotube-based membranes may lead to next-generation rechargeable, point-of-use potable water purification appliances with superior desalination, disinfection and filtration properties. Absorption-based water purification technologies are simple to use but can be hindered by their low salt removal capacity. Here, the authors report ultralong carbon nanotubes modified by plasma treatment, capable of salt adsorption two orders of magnitude higher than state-of-the-art carbon-based systems.