Add to ORKGIn this work, we present the development of a nanocomposite membrane based on reduced graphene oxide (r-GO) and zeolite 3A. This innovative nanotechnology embraces the concepts of water reuse and water efficiency, with an environmentally friendly, energy-efficient and rapid development, for wastewater and industrial wastewater treatment. The synthesis involves with a one-step deposition by vacuum filtration on a nylon substrate, of a homogeneous mixture of graphene oxide and zeolite 3A powder, then reduced to r-GO with a hydrazine treatment. The bactericidal properties of the membrane were tested in liquid medium, against four multi-drug resistant clinical isolates species (Gram-positive: Staphylococcus aureus Sa2 and Gram-negative: Escheri...
In this work, porous membranes were designed by selectively etching the PEO phase, by water, from a ...
Graphene-based nanocomposites have a vast potential for wide-ranging antibacterial applications due ...
In this work, porous membranes were designed by selectively etching the PEO phase, by water, from a ...
To purify water from various sources, the use of membrane filtration is an economical way to raise t...
The aim is to meet the global need for the development of environmentally compatible, energetically ...
Graphene, a two-dimensional hexagonal honeycomb carbon structure, is widely used in membrane technol...
The need for improved water filtration technologies continues to grow on a global scale. Membrane fi...
The emergence of mixed matrix membranes (MMMs) or nanocomposite membranes embedded with inorganic na...
© 2016 American Chemical Society. Inspired by the rational design concept, a novel antimicrobial age...
The minimization of the trade-off between the flux and the selectivity of membranes is a key area th...
The minimization of the trade-off between the flux and the selectivity of membranes is a key area th...
Synthetic membranes are currently employed for multiple separation applications in various industrie...
The need for improved water filtration technologies continues to grow on a global scale. Membrane fi...
Stacked graphene oxide (GO) nano-sheets with plentiful nanopores incorporated onto polymeric membran...
Hybrid composite membranes have great potential for desalination applications since water transport ...
In this work, porous membranes were designed by selectively etching the PEO phase, by water, from a ...
Graphene-based nanocomposites have a vast potential for wide-ranging antibacterial applications due ...
In this work, porous membranes were designed by selectively etching the PEO phase, by water, from a ...
To purify water from various sources, the use of membrane filtration is an economical way to raise t...
The aim is to meet the global need for the development of environmentally compatible, energetically ...
Graphene, a two-dimensional hexagonal honeycomb carbon structure, is widely used in membrane technol...
The need for improved water filtration technologies continues to grow on a global scale. Membrane fi...
The emergence of mixed matrix membranes (MMMs) or nanocomposite membranes embedded with inorganic na...
© 2016 American Chemical Society. Inspired by the rational design concept, a novel antimicrobial age...
The minimization of the trade-off between the flux and the selectivity of membranes is a key area th...
The minimization of the trade-off between the flux and the selectivity of membranes is a key area th...
Synthetic membranes are currently employed for multiple separation applications in various industrie...
The need for improved water filtration technologies continues to grow on a global scale. Membrane fi...
Stacked graphene oxide (GO) nano-sheets with plentiful nanopores incorporated onto polymeric membran...
Hybrid composite membranes have great potential for desalination applications since water transport ...
In this work, porous membranes were designed by selectively etching the PEO phase, by water, from a ...
Graphene-based nanocomposites have a vast potential for wide-ranging antibacterial applications due ...
In this work, porous membranes were designed by selectively etching the PEO phase, by water, from a ...