相关链接
联系方式
  • 通信地址:浙江省杭州市余杭区仓前街道余杭塘路2318号勤园17号楼231房间
  • 邮编:311121
  • 电话:0571-28868883
  • 传真:0571-28867909
  • Email:yjhuang@hznu.edu.cn
当前位置:> 首页 > 论文著作 > 正文
【RSC Adv】Enhanced catalytic degradation of 4-NP by superhydrophilic PVDF membrane decorated by Au nanoparticles
作者:Ziyang Wu, Haibo Lin, yunze wang, Xuemin Yu, Jinglong Li, Zhu Xiong, yi wang, Youju Huang, Tao Chen,Fu Liu
关键字:superhydrophilic PVDF membrane
论文来源:期刊
具体来源:RSC Adv., 2016, Accepted Manuscript
发表时间:2016年
Poly(vinylidene fluoride) (PVDF) membranes have been widely applied to treat wastewater, however, the removal of toxic aromatic phenolic compounds remains a technique challenge due to the serious adsorption fouling and difficult degradation. Herein, we aim to design a superhydrophilic PVDF membrane decorated by Au nanoparticles, which enhanced the rapid degradation of p-Nitrophenol (4-NP). The superhydrophilic PVDF membrane with micro/nano structured surface was particularly decorated by Au nanoparticles via poly(dopamine) (PDA) as a spacer. The influences of membrane affinity (e.g. Hydrophilic Membrane (HM), Micro/nano structured superhydrophilic membrane (MSiM), and Micro/nano structured superhydrophobic membrane (MSoM)) on PDA deposition and subsequent Au decoration were comprehensively investigated. The synthesized Au nanoparticles were characterized by Transmission electron microscope (TEM) and UV-vis absorption spectra. The morphology and composition was evaluated by scanning electron microscope (SEM) and X-ray photoelectron spectroscopy (XPS). Static catalytic experiments demonstrated that MSiM degraded over 90% of 4-NP in 5 minutes with the kinetic reaction rate constant of 47.84[times]10-2 min-1 and high stability in 6 cycles. A membrane catalytic reactor (MCR) was designed to realize the continuous catalytic degradation of 4-NP with the kinetic reaction rate constant of 7[times]10-2 min-1.