Background: Although large number of studies have found that prenatal phthalate exposure was inversely associated with neurodevelopment in children, there were limited data concerning about postnatal phthalate exposure. Besides, the dietary exposure sources and environmental factors were rarely discussed within these studies. Hence, we aimed to gain a better understanding of the relationship between dietary habits, postnatal exposure to phthalates, and cognitive and behavioral development in offspring. Methods: These participants of “Taiwan Birth Panel Study II, TBPS II” were followed up in 2017 (IRB No.: 201702038RINA), which is to investigate prenatal and postnatal factors on infant and early childhood health in National Taiwan University Hospital in 2009-2012. The neurocognitive function, phthalate exposure conditions, and other covariates were assessed by Conners Kiddie Continuous Performance Test II (K-CPT II), measurement of urine phthalate metabolites, and structured questionnaires, respectively. Univariate and multivariate linear and logistic regressions were used to examine the associations between phthalate exposure, K-CPT II performance and ADHD tendency. Results: In this study, 280 paired samples with sufficient data of K-CPT II and phthalate metabolite concentrations were included, among 501 paired maternal and child samples enrolled in TBPS II. As higher T-scores generally mean poor performance, all the significant associations between urine phthalate metabolites and K-CPT II T-scores were positive associations in multivariate linear models. For K-CPT II performance variables, Hit reaction time T-score and Perseverations T-score were significantly positively-associated with the most phthalate metabolites, including MEP, MECPP, MCINP, and MEHP. For phthalate metabolites, child MCINP were significantly positively-associated with the most K-CPT II T scores, including T-scores of Detectability, Omissions, Perseverations, Hit reaction time, HRT standard deviation, and HRT inter-stimulus interval (ISI) change. In multivariate logistic models for ADHD tendency, child MBzP was the only phthalate metabolite tested that showed significantly positive association with ADHD tendency, after adjusting for covariates. Interestingly, MBzP was not significantly associated with any K-CPT II T score in the multivariate linear models. Conclusions: Our study suggested that children phthalate exposure was significantly associated with neurocognitive function inversely, and ADHD tendency positively. Further large-scale prospective studies are warranted for investigation of the causal relationships and potential mechanisms.