个人简历
暨南大学环境学院副研究员,2009年毕业于哈尔滨工业大学市政环境工程学院,2012年硕士毕业于中国科学院生态环境研究中心,2017年在新加坡国立大学获得博士学位后回国加入暨南大学。2015年获得新加坡总统奖学金和美国化学学会分离纯化部优秀研究生奖;2017年获得国家基金委优秀自费留学生奖。
研究领域
1.新型膜材料制备与应用2.吸附材料制备3.电化学氧化去除水中持久性有机污染物4.水处理技术
近期论文
1.Yu, Y., Chen, J.P., Fabrication and performance of a Mn-La metal composite for remarkable decontamination of fluoride, Journal of Materials Chemistry A, 2014, 2, 8086 -8093. (IF=8.262)2. Yu, Y., Zhao, C.W., Yu, L., Li, P., Wang, T., Xu, Y., Removal of perfluorooctane sulfonates from water by a hybrid coagulation-nanofiltration process, Chemical Engineering Journal, 2016, 289, 7-16. (IF=5.310)3.Yu, Y., Yu, L., Chen, J.P., Adsorption of fluoride by Fe-Mg-La triple-metal composite: adsorbent preparation, illustration of performance and study of mechanisms, Chemical Engineering Journal, 2015, 262, 839-846.(IF=5.310)4.Yu, Y., Yu, L., Sun, M., Chen, J. P., Facile synthesis of highly active hydrated yttrium oxide towards arsenate adsorption, Journal of colloid and interface science, 2016, 474, 216-222. (IF=3.782)5.Yu, Y., Yu, L., Chen, J.P., Introduction of an yttrium-manganese binary composite that has extremely high adsorption capacity for arsenate uptake in different water conditions, Industrial & Engineering Chemistry Research, 2015, 54, 3000–300. (IF=2.567)6.Yu, Y., Chen, J.P., Key factors for optimum performance in phosphate removal from contaminated water by a Fe-Mg-La tri-metal composite sorbent, Journal of Colloid and Interface Science, 2015, 441, 303-311. (IF=3.782)7.Yu, Y., Wang, C.H., Guo, X., Chen, J.P., Modification of carbon derived from Sargassum sp. by lanthanum for enhanced adsorption of fluoride, Journal of Colloid and Interface Science, 2015, 441, 113-120. (IF=3.782)8.Yu, Y., Zhao, C.W., Wang, Y.G., Fan, W.H., Luan, Z.K., Effects of ion concentration and natural organic matter on arsenic(V) removal by nanofiltration under different transmembrane pressures, Journal of Environmental Sciences, 2013, 25, 302-307. (IF=2.208)9.Yu, Y., Zhang, C.Y., Yang, L.M., Chen, J.P., Cerium oxide modified activated carbon as an efficient and effective adsorbent for the rapid uptake of arsenate and arsenite: material development and study of performance and mechanisms, Chemical Engineering Journal, 2017, 315, 630-638.(IF=5.310)
