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https://pubmed.ncbi.nlm.nih.gov/29376329/
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Redox-responsive biodegradable PEGylated nanographene oxide for efficiently chemo-photothermal therapy: a comparative study with non-biodegradable PEGylated nanographene oxide
https://pubmed.ncbi.nlm.nih.gov/24976623/
Polyethylene Glycol-Engrafted Graphene Oxide as Biocompatible Materials for Peptide Nucleic Acid Delivery into Cells
https://pubmed.ncbi.nlm.nih.gov/29376329/
Graphene oxide stabilized by PLA-PEG copolymers for the controlled delivery of paclitaxel
https://pubmed.ncbi.nlm.nih.gov/25817600/
Enhancing the specificity of polymerase chain reaction by graphene oxide through surface modification: zwitterionic polymer is superior to other polymers with different charges
https://pubmed.ncbi.nlm.nih.gov/27956830/
Redox-responsive biodegradable PEGylated nanographene oxide for efficiently chemo-photothermal therapy: a comparative study with non-biodegradable PEGylated nanographene oxide
https://pubmed.ncbi.nlm.nih.gov/24976623/
PubMed
Polyethylene Glycol-Engrafted Graphene Oxide as Biocompatible Materials for Peptide Nucleic Acid Delivery into Cells - PubMed
Graphene oxide (GO) is known to strongly bind single-stranded nucleic acids with fluorescence quenching near the GO surface. However, GO exhibits weak biocompatibility characteristics, such as low dispersibility in cell culture media and significant cytotoxicity.…
Method and process to make and use cotton-tipped electrochemical immunosensor for the detection of corona virus United States Patent 11035817
https://www.freepatentsonline.com/11035817.html
https://www.freepatentsonline.com/11035817.html
Composition for PCR containing a polyethylene glycol-engrafted nano-sized graphene oxide
https://patents.google.com/patent/US10633698B2/en?oq=U.S.+patent+number+10%2c633%2c698+
https://patents.google.com/patent/US10633698B2/en?oq=U.S.+patent+number+10%2c633%2c698+
Quantitative and Multiplexed MicroRNA Sensing in Living Cells Based on Peptide Nucleic Acid and Nano Graphene Oxide (PANGO)
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https://pubs.acs.org/doi/full/10.1021/nn401183s
Mechanism of DNA Adsorption and Desorption on Graphene Oxide
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top researchers from Pakistan and Saudi Arabia find that GO induces high oxidative stress to the cells
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GET READY FOR SMART WATER: GRAPHENE OXIDE FOR WATER SUPPLY QUALITY CONTROL
Graphene smart membranes can control water
https://www.staffnet.manchester.ac.uk/news/display/?id=20351
Graphene smart membranes can control water
https://www.staffnet.manchester.ac.uk/news/display/?id=20351
OSINT
GET READY FOR SMART WATER: GRAPHENE OXIDE FOR WATER SUPPLY QUALITY CONTROL Graphene smart membranes can control water https://www.staffnet.manchester.ac.uk/news/display/?id=20351
"Researchers at The University of Manchester’s National Graphene Institute (NGI) have achieved a long-sought-after objective of electrically controlling water flow through membranes, as reported in Nature.
This is the latest exciting membranes development benfitting from the unique properties of graphene. The new research opens up an avenue for developing smart membrane technologies and could revolutionise the field of artificial biological systems, tissue engineering and filtration.
Graphene is capable of forming a tuneable filter or even a perfect barrier when dealing with liquids and gases. New ‘smart’ membranes developed using an inexpensive form of graphene called graphene oxide, have been demonstrated to allow precise control of water flow by using an electrical current. The membranes can even be used to completely block water from passing through when required."
This is the latest exciting membranes development benfitting from the unique properties of graphene. The new research opens up an avenue for developing smart membrane technologies and could revolutionise the field of artificial biological systems, tissue engineering and filtration.
Graphene is capable of forming a tuneable filter or even a perfect barrier when dealing with liquids and gases. New ‘smart’ membranes developed using an inexpensive form of graphene called graphene oxide, have been demonstrated to allow precise control of water flow by using an electrical current. The membranes can even be used to completely block water from passing through when required."
OSINT
https://www.youtube.com/watch?v=wp-eOH2fj3Q
The team, led by Professor Rahul Nair, embedded conductive filaments within the electrically insulating graphene oxide membrane. An electric current passed through these nano-filaments created a large electric field which ionises the water molecules and thus controls the water transport through the graphene capillaries in the membrane.
Prof Nair said: “This new research allows us to precisely control water permeation, from ultrafast permeation to complete blocking. Our work opens up an avenue for further developing smart membrane technologies.
“Developing smart membranes that allow precise and reversible control of molecular permeation using external stimuli would be of intense interest for many areas of science; from physics and chemistry, to life-sciences.
Prof Nair said: “This new research allows us to precisely control water permeation, from ultrafast permeation to complete blocking. Our work opens up an avenue for further developing smart membrane technologies.
“Developing smart membranes that allow precise and reversible control of molecular permeation using external stimuli would be of intense interest for many areas of science; from physics and chemistry, to life-sciences.
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