The free-standing diamond films are deposited on molybdenum substrate by direct current jet chemical vapor deposition (DCJCVD). X-ray diffraction,Raman spectroscopy and cathodoluminescence (CL) measurement are used to investigate the films structure and defects related to electron transition properties of the diamond films. The X-ray diffraction spectrum reveals that the diamond films have the polycrystalline cubic structure with diffraction peaks at 43.88o and 75.24o. A sharp peak at 1331.8 cm-1 and a broad band at about 1250-1550 cm-1 from Raman spectrum are attributed to diamond phase and sp2-type carbons,respectively. Two emission peaks at 440 nm and 530 nm,associated with dislocation defects and nitrogen and vacancy complexes respectively,are observed in cathodoluminescence spectrum. In addition,in order to understand both emission processes,a simple energy level scheme is suggested. The free-standing diamond films are deposited on molybdenum substrates by direct current jet chemical vapor deposition (DCJCVD). X-ray diffraction, Raman spectroscopy and cathodoluminescence (CL) measurement are used to investigate the film structure and defects related to electron transition properties of the diamond films. The X-ray diffraction spectrum reveals that the diamond films have the polycrystalline cubic structure with diffraction peaks at 43.88 ° and 75.24 °. A sharp peak at 1331.8 cm-1 and a broad band at about 1250-1550 cm -1 from Raman spectrum are attributed to diamond phase and sp2-type carbons, respectively. Two emission peaks at 440 nm and 530 nm, associated with dislocation defects and nitrogen and vacancy complexes respectively, are observed in cathodoluminescence spectrum. In addition, in order to understand both emission processes, a simple energy level scheme is suggested.