In this study, a new ligand 7-N3Et has been synthesized, and it can coordinate with 3 equivalents of CuI ions to form a trinuclear copper complex [CuICuICuI(7-N3Et)](X) (X = ClO4 or BF4) (2). This 7-N3Et ligand is similar to our previous developed 7-Dipy ligand in the scaffold to trap three CuI ions. They all have a pair of symmetric N3 coordination which consists of N1-(2-(diethylamino)ethyl) -N2,N2-diethylethane-1,2-diamine in 7-N3Et instead of 2,2-bis(pyridylmethyl)amine group for 7-Dipy. According to the efficient oxidation of cyclohexane catalyzed by [CuICuICuI(7-Dipy)]+, the [CuICuICuI(7-N3Et)]+ was adopted for comparing the catalytic effects arisen from substitution groups. The ESI-MS spectra of oxygenated [CuICuICuI(7-N3Et)]+ by dioxygen molecules, two equivalents of H2O2, and two equivalents of TBHP present a exactly same cluster signal associated with a [CuIICuII(-O)CuII(7-N3Et)]2+ trinuclear copper complex. However, with more than two equivalents of TBHP, it will encounter N-deethylation to loss a molecular weight in m/z of 28 amu and 56 amu. When one equiv. of [CuICuICuI(7-Dipy)]+ is added in the presence of 10, 25, 50 and 75 equiv. of TBHP , respectively, as oxidant with external substrates such as cyclohexane (C-H BDE : 99.3 kcal/mol) and toluene (C-H BDE : 90 kcal/mol) in the solvent of CH3CN for two hours, substrates can be oxygenated with lower TON because of competing reactions between intra-N-deethylation and inter-oxygenation. In contrast, no external substrate was added in the above condition, and the acetalaldehyde was detected by GC-MS when 50 equiv. of TBHP was used. The production of acetalaldehyde is postulated from first hydroxylation on the -CH2- of the amine group, and then disassociation by proton migration of hydroxyl group to the nitrogen atom of amine.