Nanocellulose (NFC) was firstly prepared by means of TEMPO oxidation method． NFC was used as a dispersant for dispersing carbon nanotubes (CNT) in water，and a stable and well-dispersed NFC/CNT suspension was prepared through ultrasonication and centrifugation treatment． Then the concentration of the centrifugally trea- ted NFC/CNT dispersion was measured by Lambert-Beer's law，and the dispersion effect of NFC/CNT was further characterized by atomic force microscope and Zeta potential． Finally，flexible NFC/CNT composite films were pre- pared with the obtained NFC/CNT dispersion by vacuum filtration method． Scanning electron microscopy analysis showed that the prepared films had a multi-layered ordered structure，and NFC and CNT were intertwined to form a network structure． Raman spectroscopy further indicates that hydrogen bonding exists between NFC and CNT in the composite film． The results of the humidity sensitive performance of the obtained NFC/CNT composite films show that CNT content has an important effect on the humidity sensitivity of the films． When the CNT content is 5%，the sensitivity value reaches 64% under 95% relative humidity，and the linearity fitting coefficient is 0. 982，indicating excellent humidity sensitive performance．