Nanoparticle patterning attracts considerable attention due to its wide application in many fields, such as bio/chemical sensors and electronics. However, close-packing nanoparticles at specific regions and deposition control with high fidelity still face many challenges. Herein, a strategy for high quality nanoparticle patterning by chemical lift-off lithography (CLL) is demonstrated. Chemical lift-off lithography is a promising technique to fabricate high resolution self-assembled monolayer (SAM) patterns on gold substrates. In this study, functionalized nanoparticles are selectively deposited into different areas created by the chemical lift-off processes, while the allocation of nanoparticles relies on their surface functionalities. It is found that amine-containing molecule functionalized nanoparticles tend to pack into the post-chemical lift-off regions, while the carboxyl-rich molecule encaptured ones preferentially sit at the hydroxyl‑terminated SAM covered areas. This strategy provides a straightforward way to selectively deposit nanoparticles with high fidelity and controllable density. Futhermore, high quality micro/nano scale nanoparticle packing patterns are achieved.