Combining the unique optical properties of metal nanoparticles and the specific recognition of aptamer,aptamer–nanoparticle conjugates have been extensively used in a wide range of applications,particularly multifunctional nanoparticles for cell detection and molecular imaging.Conventional conjugates prepared by chemisorption of monothiol-modified oligonucleotides onto nanoparticle surfaces suffer from a lack of stability when exposed to a variety of small molecules.If silver is used in place of gold,then this lack of stability is even more pronounced.In this study,we reported here the effective and facile strategy of preparing stable silver nanoparticle–aptamer conjugates by in situ generation of strong metal affinity capping ligands,dithiocarbamates modified anti-prion protein aptamer.The conjugates produced are stable and can withstand NaCl concentration at0.25 mol/L.Meanwhile,they could be applied in the cellular prion protein imaging successfully. Combining the unique optical properties of metal nanoparticles and the specific recognition of aptamer, aptamer-nanoparticle conjugates have been extensively used in a wide range of applications, particularly multifunctional nanoparticles for cell detection and molecular imaging. Conventional conjugates prepared by chemisorption of monothiol-modified oligonucleotides onto nanoparticle surfaces suffer from a lack of stability when exposed to a variety of small molecules. If silver is used in place of gold, then this lack of stability is even more pronounced. In this study, we reported here the effective and facile strategy of preparing stable silver nanoparticle-aptamer conjugates by in situ generation of strong metal affinity capping ligands, dithiocarbamates modified anti-prion protein aptamer. The conjugates produced are stable and can withstand NaCl concentration at 0.25 mol / L.Meanwhile, they could be applied in the cellular prion protein imaging successfully.