In this research, we explored the bio-applications of mesoporous silica nanomaterials for bio-imaging and targeted drug delivery. Mesoporous silica nanoparticles (MSNs) with positive surface charge incorporated with Gd(DTPA) by electrostatic force show the high r1 and r2 relaxivity, which are much higher than those of free Gd(DTPA). These composite nanomaterials show the slower excretion rate from animal body and could be a potential blood-pool MRI contrast agent for angiography. For cellular imaging and effective cell therapy, we also successfully synthesized two types of multifunctional MSNs nanoprobes with fluorescence and paramagnetism. Both nanomaterials show high sensitivity to MRI, good photo-stability, high cell labeling efficiency and low cytotoxicity. The nanoprobes labeled cells could be clearly visualized by MRI and optical modalities. In the last part, green fluorescence MSNs were modified with monoclonal antibody, Herceptin, to target the Her2/neu over-expressing breast cancer cell. MSNs with highest density of Herceptin on the outer surface show the highest selectivity to the targeted cell and the further modification with polyethylene glycol (PEG) can prevent from the non-specific targeting for the MSNs with low density of Herceptin. We also used the confocal microscope and TEM to demonstrate the Herceptin functionalized MSNs could be engulfed by Her2/neu positive breast cancer cells through the receptor-mediated endocytosis.