Treating paper products with anti-mildew compounds is one of the common methods for prolonging their service life. Thus, in this study the anti-mildew properties of papers treated with several plant leaf essential oils selected and their main components were evaluated by anti-mildew assay. The essential oils and their main components with anti-mildew activities were further used for the paper dipping treatments and the paper properties was examined by using indoor exposure test, accelerated aging test and artificially accelerated lightfastness test. To screen the essential oils and constituents having great anti-mildew property, leaf essential oils from five chemo-types of Cinnamomum osmophloeum (cinnamaldehyde type, cinnamaldehyde-cinnamyl acetate type, linalool type, camphor type, and mixed type), Cinnamomum zeylanicum, Cinnamomum insularimontanum, Cinnamomum burmani, and Clausena excavate and their major constituents (cinnamaldehyde, linalool, camphor, cinnamyl acetate, bornyl acetate, 3-phenylpropionaldehyde, eugenol, 1,8-cineol, safrole, borneol, terpinolene) were investigated by anti-mildew assay. Results from the anti-mildew assay revealed that cinnamaldehyde type and cinnamaldehyde -cinnamyl acetate type of C. osmophloeum leaf oil had great inhibitory effects on the growth of Aspergillus niger, Aspergillus terreus, Chaetomium globosum, Penicillium citrinum, and Trichoderma viride among the selected essential oils. Cinnamaldehyde had better inhibitory effects on the growth of five mildews than other constituents tested and even better than the popular fumigation, thymol. IC50 (Median inhibition concentration) values of cinnamaldehyde against five mildews were all ＜ 62.5 μg/cm2. Anti-mildew papers manufactured from Xuan and wood free paper and they were dipped in 2％ ethanol solution of cinnamaldehyde type of C. osmophloeum leaf oil and cinnamaldehyde. They inhibited the growth of five mildews tested completely, and there is no significant difference in the color variations and the pH value were observed in comparison with the untreated papers. As for paper strength properties, the changes of tensile index and folding endurance of both Xuan and wood free paper after dipping in 2％ cinnamaldehyde and 2％ cinnamaldehyde type of C. osmophloeum leaf oil were comparatively lower than the untreated papers. In addition, the changes in paper properties of both Xuan and wood free paper after indoor exposure for 16 weeks, accelerated aging test for 288 hr, and accelerated lightfastness test for 400 hr were almost similar to those of untreated papers. Furthermore, essential oil and its compound evaporated easily. Therefore, this study reveals that anti-mildew papers can be manufactured by using leaf oil of C. osmophloeum and cinnamaldehyde with papers without affecting the color and pH value. Howerver, we should take account of the environment and the purpose, since they might have shorter anti-mildew activity and lower paper strength prperties.