Japanese eel（Anguilla japonica）and giant mottled eel（Anguilla marmorata） are the main breeding species in Taiwan. Due to reduced elvers, the increased land cost and the deterioration of environment in recent years, intensive recirculating aquaculture system has gradually become the essential constituent of eel breeding. Intensive farming increases the density of breeding, which easily accelerates the spread of pathogens increasing the difficulty to control diseases. The biggest pathogenic challenge of eel farming is the threat of Edwardsiella tarda, which is one of the main reasons for the loss of eels. In traditional eel farming, antibiotics are often used to fight the outbreak of E.tarda. However, abuse of antibiotics can create resistant bacterial strains and even lead to the problem of aquatic product safety. Spermidine carbon quantum dots（CQDSpds）, as a newly developed carbon nanomaterial, are synthesized from the simple one-step pyrolysis of spermidine and carbon quantum dots. The positive charges on the surface of CQDSpds binds to negatively charged bacterial cell wall, and by the principle of vibrating ions in multiple directions, the shearing force will tear and break the bacteria. The compound has a wide range of application in anti-bacterial, especially against a variety of pathogenic bacteria. When feeding it as additive, CQDSpds can reduce the prevalence of infectious diseases among aquatic animals and it is expected to become a partial substitute to antibiotics. However the specific effect of adding CQDSpds in eel culture has not been studied. This experiment was conducted to investigate the effect of different proportions of CQDSpds on growth performance, intestinal morphology, immunity and oxidative stress related to gene expression and disease resistance to E.tarda. in Japanese eel and giant mottled eel. After the pre-test confirmed the safe dose of CQDSpds, the compound was tested on both eels, respectively. There were five groups for each session of the trial and each group was duplicate. Each group was fed with different proportion of CQDSpds, namely 0 ppm, 0.25 ppm, 0.5 ppm, 1 ppm and 2 ppm. A total of 250 Japanese eels were tested for a duration of 56 days. And, for giant mottled eels, a total of 300 fish were tested for 74 days. The total body length and body weight of eels were measured every 2 weeks for growth analysis. The number of deaths and feeding condition were recorded daily. At the end of trials, 4 eels were euthanized to take the intestinal tissues and head kidneys. The sampled intestines were embedded in paraffin and prepared into slides to observe their morphology and intestinal villi under microscope. Immune related gene expression of the head kidneys were analyzed by qPCR. As for the challenge experiment, E.tarda was used. The test results showed that feeding certain amount of CQDSpds could improve several growth-related parameters of Japanese eel and giant mottled eel, final body weight, weight gain and specific growth rate of Japanese eel and giant mottled eel fed with 1 ppm and 0.5 ppm CQDSpds increased the most. Adding an appropriate amount of CQDSpds can reduce the pressure on Japanese eel and giant mottled eel in the circulating water system. Compared with the control group, administration of 1 ppm CQDSpds increased the LZM（lysozyme）gene expression of Japanese eel, thus enhancing the nonspecific immunity of eel. However, there was no significant difference in survival rate among groups. The results of intestinal morphology showed that there was no significant difference in intestinal villus height and intestinal morphology between the eels fed with CQDSpds and the control group. The challenge test showed that the survival rate of Japanese eel and giant mottled eel improved after E. tarda challenge when they were fed with CQDSpds. The survival rate of each group supplemented with CQDSpds was higher than that of the control group, among which the highest survival rates were found in groups of Japanese eel 1 ppm and giant mottled eel 0.5 ppm. The addition of CQDSpds in the diet can improve the resistance of Japanese eel and giant mottled eel to E.tarda, and increase the survival rate in the outbreak of bacterial diseases. As proven by this experiment, the additive of CQDSpds could improve eel culture and increase economic benefit.