Nanofiltration (NF) membranes have been used for different application的英语翻译

Nanofiltration (NF) membranes have

Nanofiltration (NF) membranes have been used for different applications in water treatment. In this work, we studied two facile surficial adhesive functionalization processes using polydopamine (pDA) and a metal–organic framework (MOFs) and investigated their individual and synergistic effects on membrane rejection, permeability, and antifouling properties. The copper MOF nanoparticles (Cu-MOF) were synthesized and incorporated with the pDA for surface coating of NF membranes using two different static (dip-coating) and dynamic (filtration-assisted) fabrication processes. All of the functionalized membranes were characterized completely, and the effects of pDA and Cu-MOF separately and together on the membrane physicochemical properties were identified. The results showed that the surface functionalization by only pDA enhanced the dye rejection from 22% (blank) to 98% (pDA-functionalized membrane). The dip-coating approach resulted in uniform polymerization of pDA on the membrane surface, while the filtration-assisted technique generated a deficient pDA layer. The incorporation of Cu-MOF into the pDA layer improved the permeability of the pDA-functionalized membrane by increasing the hydrophilicity of membranes and providing more water pathways due to the porous structure of MOFs. In addition, the molecular dynamics (MD) investigation of MOF-functionalized membranes revealed the role of embedded Cu-MOF charge repulsion mechanisms in the rejection of anionic and cationic dyes.
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Nanofiltration (NF) membranes have been used for different applications in water treatment. In this work, we studied two facile surficial adhesive functionalization processes using polydopamine (pDA) and a metal–organic framework (MOFs) and investigated their individual and synergistic effects on membrane rejection, permeability, and antifouling properties. The copper MOF nanoparticles (Cu-MOF) were synthesized and incorporated with the pDA for surface coating of NF membranes using two different static (dip-coating) and dynamic (filtration-assisted) fabrication processes. All of the functionalized membranes were characterized completely, and the effects of pDA and Cu-MOF separately and together on the membrane physicochemical properties were identified. The results showed that the surface functionalization by only pDA enhanced the dye rejection from 22% (blank) to 98% (pDA-functionalized membrane). The dip-coating approach resulted in uniform polymerization of pDA on the membrane surface, while the filtration-assisted technique generated a deficient pDA layer. The incorporation of Cu-MOF into the pDA layer improved the permeability of the pDA-functionalized membrane by increasing the hydrophilicity of membranes and providing more water pathways due to the porous structure of MOFs. In addition, the molecular dynamics (MD) investigation of MOF-functionalized membranes revealed the role of embedded Cu-MOF charge repulsion mechanisms in the rejection of anionic and cationic dyes.
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结果 (英语) 2:[复制]
复制成功!
Nanofiltration (NF) membranes have been used for different applications in water treatment. In this work, we studied two facile surficial adhesive functionalization processes using polydopamine (pDA) and a metal–organic framework (MOFs) and investigated their individual and synergistic effects on membrane rejection, permeability, and antifouling properties. The copper MOF nanoparticles (Cu-MOF) were synthesized and incorporated with the pDA for surface coating of NF membranes using two different static (dip-coating) and dynamic (filtration-assisted) fabrication processes. All of the functionalized membranes were characterized completely, and the effects of pDA and Cu-MOF separately and together on the membrane physicochemical properties were identified. The results showed that the surface functionalization by only pDA enhanced the dye rejection from 22% (blank) to 98% (pDA-functionalized membrane). The dip-coating approach resulted in uniform polymerization of pDA on the membrane surface, while the filtration-assisted technique generated a deficient pDA layer. The incorporation of Cu-MOF into the pDA layer improved the permeability of the pDA-functionalized membrane by increasing the hydrophilicity of membranes and providing more water pathways due to the porous structure of MOFs. In addition, the molecular dynamics (MD) investigation of MOF-functionalized membranes revealed the role of embedded Cu-MOF charge repulsion mechanisms in the rejection of anionic and cationic dyes.
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结果 (英语) 3:[复制]
复制成功!
纳滤膜在水处理中有着广泛的应用。在这项工作中,我们研究了两种使用聚多巴胺(pDA)和金属-有机骨架(MOFs)的表面粘附功能化过程,并研究了它们对膜截留、渗透性和防污性能的单独和协同效应。采用静态(浸涂)和动态(过滤辅助)两种不同的制备工艺,合成了铜MOF纳米粒子(Cu-MOF),并将其与pDA结合,用于NF膜的表面包覆。对所制备的功能化膜进行了全面的表征,分别考察了pDA和Cu-MOF对膜理化性能的影响。结果表明,仅用pDA进行表面功能化处理,染料截留率由空白的22%提高到98%(pDA功能化膜)。浸涂法可使pDA在膜表面均匀聚合,而过滤辅助技术则产生缺陷pDA层。在pDA层中加入Cu-MOF,由于MOFs的多孔结构,增加了膜的亲水性,提供了更多的水通道,从而改善了pDA功能化膜的渗透性。此外,MOF功能化膜的分子动力学(MD)研究揭示了嵌入的Cu-MOF电荷排斥机制在阴、阳离子染料截留中的作用。<br>
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