Understanding the temperature effect on transport dynamics and structures in polyamide reverse osmosis system via molecular dynamics simulations.

@article{Li2018UnderstandingTT,
  title={Understanding the temperature effect on transport dynamics and structures in polyamide reverse osmosis system via molecular dynamics simulations.},
  author={Ke Li and Lifen Liu and Hao Wu and Shanlong Li and Chunyang Yu and Yongfeng Zhou and Wei Huang and Deyue Yan},
  journal={Physical chemistry chemical physics : PCCP},
  year={2018},
  volume={20 47},
  pages={
          29996-30005
        }
}
  • Ke Li, Lifen Liu, +5 authors D. Yan
  • Published 5 December 2018
  • Materials Science
  • Physical chemistry chemical physics : PCCP
The structures and transport dynamics of water and salt ions in polyamide (PA) reverse osmosis (RO) membranes as well as the temperature effects on the RO process were systematically investigated using a fully atomistic simulation method. By comparing the experimental data of the commercial membrane FT-30 and the available MD simulation results, the reliability of our PA RO model was validated. In addition, the groups on the polymer chains that preferentially participated in the coordination… 
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Molecular dynamics simulation studies of the structure and antifouling performance of a gradient polyamide membrane.
TLDR
A modeling method is reported that can be used to construct a gradient crosslinking model and surface grafting model for the PA layer and it is found that the antifouling performance of a PEG-modified PA layer is not only related to the hydrophobicity and the size of the pollutant, but is alsorelated to the coverage ratio of the PEG layer.
In silico study of structure and water dynamics in CNT/polyamide nanocomposite reverse osmosis membranes.
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Three atomistic models of PA, CNT-based reverse osmosis membranes and non-equilibrium molecular dynamics simulations are conducted to investigate the structure and water dynamics in these three models and found that water molecules were guided away from the CNT because of the better stacked surrounding PA matrix.
Atomistic Simulations of Biofouling and Molecular Transfer of Crosslinked Aromatic Polyamide Membrane for Desalination.
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The results demonstrated that the PA membrane surface's roughness is a key factor of surface's bio-fouling, as the lysozyme protein adsorbed on the surface's cavity site displays extremely low surface diffusivity, blocking water passage and decreasing water flux.
The effect of temperature on water desalination through two-dimensional nanopores.
TLDR
A kinetic model is suggested, which can predict the water and ion permeation based on the characteristics of the nanopore, which was found to be related to the temperature as per the Arrhenius equation, similar to an activated process.
Molecular dynamics simulation of polyamide-based materials – A review
Amide A band is a fingerprint for water dynamics in reverse osmosis polyamide membranes
Surface modification of polyamide reverse osmosis membranes with small-molecule zwitterions for enhanced fouling resistance: a molecular simulation study.
TLDR
The analyses of the membrane structure and properties show that surface modification with small-molecule zwitterions can densify the membrane surface as well as enlarge the distribution of electrostatic potential on the membranes surface.
Transport mechanism of water molecules passing through polyamide/COF mixed matrix membranes.
TLDR
The water transport mechanism discovered in this work offers an alternative and more likely explanation for the high permeance observed in PA/COF MMMs, and this understanding can be helpful to design more efficient MMMs.
MembrFactory: A Force Field and composition Double Independent Universal Tool for Constructing Polyamide Reverse Osmosis Membranes
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A new universal toolkit for constructing PA RO membranes, named as MembrFactory, which combines flexibility of force fields and membrane compositions is developed, and the final membrane model was obtained automatically by stepwise reaction between the functional groups on the monomers.
Dehydration of acetic acid using layered graphene oxide (GO) membrane through forward osmosis (FO) process: a molecular dynamics study
ABSTRACT The applicability of layered graphene oxide (GO) membrane for dehydration of acetic acid using forward osmosis (FO) process is investigated with non-equilibrium molecular dynamics (MD)…
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