Rare earth ions （RE³⁺） doped up-conversion luminescent materials have shown great potential for applications in biomedicine， fluorescence sensing， ion detection， and anti-counterfeiting due to their excellent optical properties. In this paper， we reported a facile synthetic strategy to synthesize NaYF₄∶Yb³⁺，RE³⁺@CDs nanocomposites via hydrothermal synthesis by adding CDs prepared with citric acid and urea as precursors to a precursor solution of NaYF₄∶Yb³⁺，RE³⁺. The successful attachment of CDs on the surface of NaYF4∶Yb³⁺，RE³⁺ was confirmed by XRD， TEM， FT-IR ， XPS and other characterization methods. It was found that the as-prepared NaYF₄∶Yb³⁺，RE³⁺ were uniform monodisperse nanospheres，and the crystal form of NaYF₄ in the nanocomposite is not altered by CDs. Under the excitation of UV light， the prepared NaYF₄∶Yb³⁺，RE³⁺@CDs nanocomposites exhibit excellent dual-mode emission properties attributed to down-conversion emission of CDs and up-conversion characteristic emission of RE³⁺-doped ions， respectively. Meanwhile， the addition of CDs has led to enhanced RE³⁺ up-conversion emission. It may be due to （1） the successful passivation of some surface defects of NaYF₄ due to the strong coordination ability of the COOH on the surface of CDs with RE³⁺ ions； and （2） CDs are used to absorb excited electrons and transfer energy to the lower energy level of RE³⁺， resulting in the enrichment of the excitation electrons. This strategy is also effective for different doping ions （NaYF₄∶Yb³⁺，Er³⁺， NaYF₄∶Yb³⁺，Tm³⁺ and NaYF₄∶Yb³⁺，Ho³⁺）. The results of this study provide a simple and effective new synthesis strategy for further improving property of other RE³⁺-doped up-conversion luminescent materials.