The objective of this thesis is to explorethe mechanismof baniry adsorption of Nitrophenol and Cu(II) by MWCNTs.Batch adsorption and cyclic voltammetry were conducted and compared. It is suggested that it would be difficult for NPs to get close to the surface of MWCNTs because of the interactions between the benzene ringof NPs and the oxygen-containing in acidic condition. It is also believed that the hydrationofCu2+limited the adsorption of NPs. In this case, it can be speculated that there is competition between NPs and Cu2+for the adsorption on fthe MWCNTs.On the other hand, in alkaline solution, an apparent increase in theadsorption of 2-NP was found while such increase was not observed for 4-NP. Threeadsorption mechanisms may be possible: (A) 2-NP and Cu2+may form a new compounds,(B) MWCNT may adsorb Cu2+first, followed by the adsorption of dissociated nitrophenol ionsdue to the electrostatic attraction withCu2+, and (C) Surface precipitation of Cu may decrease the negative charges of the MWCNTs surface.For 4-NP and copper are mixed in alkaline solution, Cu2+ may be adsorbed on the MWCNTs first followed by the adsorption of 4-NP.From CV, it was found that the current of 4-NP increased after Cu2+was added in the solution. Meanwhile, the current of Cu2+ became weaker than that of 4-NP. Therefore, it can be suggested that the presence of Cu2+may enhance the adosprtion of 4-NP onMWCNT.