| 姓 名 | 王润锴 |
办公地点 | 实训楼四号楼4409 | |
办公电话 | (021)67791217 | |
电子邮箱 | wangrunkai@sues.edu.cn | |
毕业学校 | 韩国全北大学 | |
研究方向 1.固废资源化及环境功能材料的开发 3 . 微生物修复 | ||
个人简历 学习经历 (1) 2012.3–2015.8, 全北大学, 生命工程, 博士; (2) 2009.9–2012.2, 全北大学, 生命工程, 硕士; (3) 2005.9–2009.7, 中南民族大学, 应用化学, 学士。 工作经历 2016.1至今, 上海工程技术大学, 化学化工学院 承担项目 (1)上海市优秀青年教师资助计划,在研,主持; (2)上海市青年科技英才“扬帆计划”,在研,主持; (3)上海工程技术大学科研启动基金,已结题,主持; 荣誉奖项 (1)微格教学实践单项奖,上海市属高校新教师岗前培训,第一完成人,2016年; (2)上海工程技术大学教学成果二等奖,上海工程技术大学,6/8, 2017年。 | ||
代表性论著 (1)Sun, Zhaowei ; Park, Joon-Seok; Kim, Daeik; Shin, Chul-Ho; Zhang, Wenqi; Wang, Runkai ; Rao, Pinhua ,Synthesis and Adsorption Properties of Ca-Al Layered Double Hydroxides for the Removal of Aqueous Fluoride , Water Air and Soil Pollution, 2017.1, 228(1) (2)Wang, Runkai ; Shin, Chul-Ho; Kim, Daeik; Ryu, Moonhee; Park,Joon-Seok , Adsorption of heavy metals and organic contaminants from aqueous stream with chemically enhanced kapok fibers , Environmental Earth Sciences, 2016.2, 75(4) (3)Wang, Runkai ; Shin, Chul-Ho; Chang, Yungyu; Kim, Daeik; Park,Joon-Seok ,Aqueous Antibacterial Enhancement Using Kapok Fibers Chemically Modified in 3-D Crosslinked Structure , Water Environment Research, 2016.7.1,88(7): 611~616 (4)Runkai Wang ; Chul-Ho Shin; Siho Park; Joon-Seok Park; Daeik Kim; Longzhe Cui; Moonhee Ryu ,Removal of lead (II) from aqueous stream by chemically enhanced kapok fiber adsorption, Environ Earth Sci, 2014.11.5, 72:5521~5527 (5) Runkai Wang ; Chul ho Shin; Siho Park; Longzhe Cui; Daeik Kim; Joon-Seok Park; Moonhee Ryu ,Enhanced Antibacterial Activity of Silver-Coated Kapok Fibers Through Dopamine Functionalization, Water Air Soil Pollut, 2014.12.18, 226(2241): 2241~2241 (6) 申正浩; 朴西浩; 申正官; 王润锴, Manufacturing method of kapok fiber for heavy metal absorbent and heavy metal adsorbent using the same, 2016.10.27, 韩国, 1720951 (专利) (7) 申正浩; 朴西浩; 申正官; 王润锴, Manufacturing method of kapok fiber having silver nano coating and kapok fiber having silver nano coating, 2016.10.27, 韩国, 10-1702110 (专利) (8) 申正浩; 朴西浩; 申正官; 王润锴; 王东方, Layered-Double-Hydroxides having high fluoride ion removal efficient and methods of manufacturing the same, removal methods of fluoride ion, 2016.11.8, 韩国, 10-1733471 (专利) | ||
