Over the past few years, more and more evidence indicated that the metal ion imbalance in the brain will give rise to many diseases. Magnetic resonance imaging (MRI) is a non-invasive and high resolution technique that has become a powerful diagnostic tool in medicine. In this study, we have developed a new contrast agent [Gd(HQ-DO3A)] that can recognize Cu2+ ion in the cells. The significant increases in the relaxivity (r1) and hydration number (q) in the present of Cu2+ were observed. Moreover, the Gd3+ complex attributes excellent selectivity for Cu2+ over a choice of other metal ions. A gradual increase was shown in the signal enhancement of MR imaging upon copper ion detection. On the other hand, we observed fluorescence intensity decreased via transferring the inner system energy from qunoline ring to Eu3+ when copper was absent. These results implicate that a new MR based contrast agent can serve as a Cu2+ sensor using MR imaging.