Sophie Cerneaux scite author profile

Electro-oxidation processes are promising options for the removal of organic pollutants from water. The major appeal of these technologies is the possibility to avoid the addition of chemical reagents. However, a major limitation is associated with slow mass transfer that reduces the efficiency and hinders the potential for large-scale application of these technologies. Therefore, improving the reactor configuration is currently one of the most important areas for research and development. The recent development of a reactive electrochemical membrane (REM) as a flow-through electrode has proven to be a breakthrough innovation, leading to both high electrochemically active surface area and convection-enhanced mass transport of pollutants. This review summarizes the current state of the art on REMs for the electro-oxidation of organic compounds by anodic oxidation. Specific focuses on the electroactive surface area, mass transport, reactivity, fouling and stability of REMs are included. Recent advances in the development of sub-stoichiometric titanium oxide REMs as anodes have been made. These electrodes possess high electrical conductivity, reactivity (generation of OH), chemical/electrochemical stability, and suitable pore structure that allows for efficient mass transport. Further development of REMs strongly relies on the development of materials with suitable physico-chemical characteristics that produce electrodes with efficient mass transport properties, high electroactive surface area, high reactivity and long-term stability.

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Comparison of various membrane distillation methods for desalination using hydrophobic ceramic membranes

Cerneaux

Strużyńska

Kujawski

et al. 2009

Journal of Membrane Science

190

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Ion-Driven ATP Pump by Self-Organized Hybrid Membrane Materials

et al. 2004

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We report new hybrid organic-inorganic materials, based on macrocyclic receptors 1-3 self-organized in tubular superstructures prepared by sol-gel process. Fourier transform infrared (FTIR) and NMR spectroscopic analyses demonstrate that the self-organization by hydrogen bonding of organogel superstructures of 2 and 3 were preserved in the hybrid materials throughout the sol-gel process. The molecular arrangement of heteroditopic receptors defines a particularly attractive functional transport device for both cation (tubular macrocycles) and anion (sandwich-urea) directional-diffusion transport mechanism in the hybrid membrane material. This system has been employed successfully to design a solid dense membrane, functioning as an ion-powered adenosine triphosphate (ATP(2)(-)) pump, and illustrates how a self-organized hybrid material performs interesting and potentially useful functions.

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Highly Efficient Hydrophobic Titania Ceramic Membranes for Water Desalination

Kujawa

Cerneaux

Koter

et al. 2014

ACS Appl. Mater. Interfaces

100

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Hydrophobic titania ceramic membranes (300 kD) were prepared by grafting of C6F13C2H4Si(OC2H5)3 and C12F25C2H4Si(OC2H5)3 molecules and thus applied in membrane distillation (MD) process of NaCl solutions. Grafting efficiency and hydrophobicity were evaluated by contact angle measurement, atomic force microscopy, scanning electron microscopy, nitrogen adsorption/desorption, and liquid entry pressure measurement of water. Desalination of NaCl solutions was performed using the modified hydrophobic membranes in air gap MD (AGMD) and direct contact MD (DCMD) processes in various operating conditions. High values of NaCl retention coefficient (>99%) were reached. The permeate fluxes were in the range 231-3692 g·h(-1)·m(-2), depending on applied experimental conditions. AGMD mode appeared to be more efficient showing higher fluxes and selectivity in desalination. Overall mass transfer coefficients (K) for membranes tested in AGMD were constant over the investigated temperature range. However, K values in DCMD increased at elevated temperature. The hydrophobic layer was also stable after 4 years of exposure to open air.

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The influence of surface modification on the physicochemical properties of ceramic membranes

Kujawa

Rozicka

Cerneaux

et al. 2014

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Removal of hazardous volatile organic compounds from water by vacuum pervaporation with hydrophobic ceramic membranes

Kujawa¹,

Cerneaux²,

Kujawski³

2015

Journal of Membrane Science

126

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Application of ceramic microfiltration membrane modified by nano-TiO2 coating in separation of a stable oil-in-water emulsion

Chang

Zhou

Wang

et al. 2014

Journal of Membrane Science

210

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Efficiency of grafting of Al2O3, TiO2 and ZrO2 powders by perfluoroalkylsilanes

Kujawa

Kujawski

Koter

et al. 2013

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Sophie Cerneaux

Electro-oxidation of organic pollutants by reactive electrochemical membranes

Comparison of various membrane distillation methods for desalination using hydrophobic ceramic membranes

Ion-Driven ATP Pump by Self-Organized Hybrid Membrane Materials

Highly Efficient Hydrophobic Titania Ceramic Membranes for Water Desalination

The influence of surface modification on the physicochemical properties of ceramic membranes

Removal of hazardous volatile organic compounds from water by vacuum pervaporation with hydrophobic ceramic membranes

Application of ceramic microfiltration membrane modified by nano-TiO2 coating in separation of a stable oil-in-water emulsion

Efficiency of grafting of Al2O3, TiO2 and ZrO2 powders by perfluoroalkylsilanes

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