Therapeutic efficacy of solid tumor is often severely hampered by poor penetration of therapeutics into diseased tissues and lack of tumor targeting. In this study, the functionalized upconversion nanoparticles (UCNP)-based delivery vector targeting cancer cells was developed. Firstly, NaYF₄:Yb/Tm (UCNP) was prepared with the solvothermal method for the uniform nanoparticle size and brilliant lattice structure. The SiO₂ coated UCNP was demonstrated a high upconversion emission and good monodispersity, which was coupled with polyetherimide (PEI) and miR-145 vector. Then, it was further functionalized via hyaluronic acid (HA) (UCNP/PEI/HA Nanocomplex, UCNPs) coating for the targeted delivery and improved biocompatibility. The UCNPs/miR-145 displays an excellent biocompatibility, a high level of cellular uptake and miR-145 expression, which results in a significant cell cycle arrest in G1, and induces CCND1, CDK6 and CCNE2 proteins downregulation. In vivo, the HA-coated UCNPs were enriched at the tumor site by targeting and retention effects, which resulted in a significant inhibition of tumor growth. Histological experiments demonstrated that UCNPs did not show significant toxicity in mice colon cancer model. Taken together, a UCNPs-based delivery platform was successfully constructed and used for miRNA target delivery, which provided a new method and idea for bioengineering and nanotechnology-based tumor therapy.