The gas phase nucleation process of anatase TiO2 in atmospheric non-thermal plasma enhanced chemical vapor deposition is studied. The particles synthesized in the plasma gas phase at di?erent power density were collected outside of the reactor. The structure of the collected particles has been investigated by field scanning electron microscope(FESEM), X-ray di?raction(XRD), high resolution transmission electron microscopy(HRTEM) and selected area electron di?raction(SAED). The analysis shows that uniform crystalline nuclei with average size of several nanometers have been formed in the scale of micro second through this reactive atmospheric plasma gas process. The crystallinity of the nanoparticles increases with power density. The high density of crystalline nanonuclei in the plasma gas phase and the low gas temperature are beneficial to the fast deposition of the 3D porous anatase TiO2 film. The gas phase nucleation process of anatase TiO2 in atmospheric non-thermal plasma enhanced chemical vapor deposition is studied. The structure composed of the plasma gas phase at di? Erent power density were collected outside of the reactor. investigated by field scanning electron microscope (FESEM), X-ray di? raction (XRD), high resolution transmission electron microscopy (HRTEM) and selected area electron di? raction (SAED). The analysis shows that uniform crystalline nuclei with average size of The high density of crystalline nanosuclei in the plasma gas phase and the low gas temperature are beneficial to the fast deposition of the 3D porous anatase TiO2 film.