Growing Carbon Nanotube on Aluminum Oxides: An Inherently Safe Approach for Environmental Applications

Abstract

Using micron-sized Al 2O 3 particles as carriers to grow carbon nanotubes (CNTs) under 700°C atmosphere of methane and hydrogen after pre-planted catalysts of Fe–Ni nanoparticles, those composite CNTs (CCNTs) have demonstrated several unique properties compared to CNTs—medium specific surface area and zeta potential, high adsorption capacity for metal ions, high recovery rate by acids, low decomposition heat for exothermal reaction, and so on. The adsorption behaviours of Pb 2+, Cu 2+ and Cd 2+ in aqueous solutions by CCNTs are in good agreement with the Langmuir adsorption isotherm and second order kinetic model with maximum individual adsorption capacities of 67.11, 26.59 and 8.89 mg g −1. The individual and competitive adsorption behaviours indicated that the preference order of adsorption were Pb 2+ > Cu 2+ > Cd 2+ for aluminum oxides, activated carbon, commercial CNTs, and CCNTs as well as other researchers’ CNTs. We suggest that future development of CNTs to combine with metals and/or other materials, such as TiO 2, should consider attached to carriers or surface in order to avoid concerns on environment, health and safety. Thus, growing CNTs on Al 2O 3 particles to form CCNTs is an inherently safe approach for many promising environmental applications.