Anti-Fouling Electroconductive Forward Osmosis Membranes: Electrochemical and Chemical Properties

Cruz-Tato, Perla; Rivera-Fuentes, Nicole; Flynn, Michael; Nicolau, Eduardo

doi:10.1021/acsapm.9b00087

Cited by 23 publications

(13 citation statements)

References 39 publications

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“…As a strategy to understand the surface free energy aspects of the fabricated membranes, the contact angle technique was employed to determine the hydrophilicity/hydrophobicity of the membranes (Figure ). − The SupPAC membranes have a high contact angle and low surface energy; these indicate weaker attractive forces between the material surface and the water droplet. The results suggest that adding the polyanion and polycation layers creates a disturbance in the surface energy and promotes partial nonwetting. , Moreover, the LLC surface promotes complete wetting on the surface, which can be attributed to the exposed polar side of the LLC mixture.…”

Section: Resultsmentioning

confidence: 99%

Lyotropic Liquid Crystal-Based Membranes for Water Remediation: Fabrication, Characterization and Performance Evaluation

2020

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In water remediation, biomimetic membranes are gaining much attention due to their selectivity, dynamic stability, nontoxicity, and biocompatibility. Lyotropic liquid crystals (LLCs) are self-organizing networks that can conform to an array of geometries with high pore densities. As such, LLCs are excellent membrane materials for water applications because they are water insoluble and are manipulated to conform to an array of morphologies that provide natural water channels that are readily tunable in size. They have the ability to create uniform pores, between the range of 1 and 5 nm, with large surface areas. Thus, this work focuses on the design, fabrication, and characterization of LLC-modified Janus-type membranes for forward osmosis applications. Physical characterization of the membranes was performed using scanning electron microscopy (SEM), and the results show an open-pore radius and the presence of both finger- and sponge-like pores depending on membrane preparation. The contact angle assessment indicates that as the membranes are further modified with other polymers (e.g., PAN), higher hydrophilicity and surface energy are achieved. Moreover, the Brunauer–Emmett–Teller (BET) analysis showed a significant variation in the pore distribution between membranes. Functionalized membranes presented satisfactory water flux and superior salt rejection compared to nonfunctionalized membranes. SupPACMoDS membranes are 83% more efficient at preventing salt back flux than the nonmodified version. This is credited to the thickness and pore structure provided by the PAN support layer in the membrane.

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Section: Resultsmentioning

confidence: 99%

Lyotropic Liquid Crystal-Based Membranes for Water Remediation: Fabrication, Characterization and Performance Evaluation

2020

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“…These trends are also observed at cathodic potentials of −1.0 and −0.5 V. The results shown in Figure 6 indicate that the attached biofilm introduces charge-transfer barriers that limit the passage of current at more negative potentials. 55 However, the presence of a charge-transfer barrier does not explain why fouling removal increases with electrode coverage initially and then attains a steady value. Instead, the relatively consistent current density measurements across electrode coverage values show that biofilm removal is not correlated with current density at all.…”

Section: Methodsmentioning

confidence: 99%

Understanding the Relationship between Electrochemical Fouling Control and Electrode Surface Coverage

Cho,

Kang,

Kirienko

et al. 2023

ACS EST Eng.

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Fouling limits the performance of membrane-based water treatment processes and accounts for up to 25% of the operational expenses of membrane-based water treatment processes. Electrically conductive membranes have been proposed as cheaper and more energy efficient alternatives to reduce and remove fouling. In this study, we investigate the relationship between the surface coverage with an electrode and fouling control levels. We use direct laser scribing for the printing of electrodes with varying surface coverage and measure the removal of bacterial foulants across a range of applied potentials. We find that partial substrate coverage with conductive materials can result in effective electrical fouling control and uncover a surprising relationship between the current density and fouling control. At a given applied potential, biofilm control was not correlated with current density, which indicates that factors other than current density or electrode coverage, such as the shape of the electrode or the particular pattern, might also be critical factors that control biofilm removal levels. These results provide guiding principles for the design of active fouling removal from membranes and other surfaces by using electrochemical reactions.

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“…[80][81][82] For example, Cruz-Tato et al immersed a polysulfone (PSF) supported membrane in an acidic aniline monomer solution and accomplished in situ oxidative polymerisation of PANI by slow dropwise addition of an APS solution. 83 Scanning electron microscopy (SEM) confirmed crosslinking growth of the PANI network on the membrane surface. The ISCO method avoids prepolymerisation, multiple filtration and cleaning of the PANI, which simplifies the preparation process and shows potential for industrial application.…”

Section: Membrane Forming Processesmentioning

confidence: 96%

Preparation, modification and antifouling properties of polyaniline conductive membranes for water treatment: a comprehensive review

Hao,

Wang,

Wang

et al. 2024

Environ. Sci.: Water Res. Technol.

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Anti-Fouling Electroconductive Forward Osmosis Membranes: Electrochemical and Chemical Properties

Cited by 23 publications

References 39 publications

Lyotropic Liquid Crystal-Based Membranes for Water Remediation: Fabrication, Characterization and Performance Evaluation

Lyotropic Liquid Crystal-Based Membranes for Water Remediation: Fabrication, Characterization and Performance Evaluation

Understanding the Relationship between Electrochemical Fouling Control and Electrode Surface Coverage

Preparation, modification and antifouling properties of polyaniline conductive membranes for water treatment: a comprehensive review

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