Summary
GRAPHEME will combine chemically tailored graphene and related materials (GRMs) with capillary membranes (CMs) technology to engineer a radically new generation of CMs, exploiting simultaneously the outstanding adsorption properties of GRMs with the physical sieving potential of CMs, to ultimately improve the quality of potable water. GRMs’ hybrids hold a disruptive potential as sieving materials to boost the CMs performance as they possess an ideal tailor-made structure and tunable physicochemical properties. In a recent breakthrough, foams based on GRMs functionalized with polymers were used to sequester heavy metal ions from water with an unprecedented efficiency. Their high surface area with sp2 hybridization favors the adsorption of organic molecules. The functional groups on the GRM surface enable to tune both the water permeability and the binding of ions, thereby favoring the removal of inorganic contaminants. Significantly, no other material currently used for water treatment combines all these key properties. GRAPHEME’s CMs will combine the removal of toxic pollutants with rejection of particles, microorganisms and dissolved solids thanks to the synergy between micro/ultrafiltration by CM scaffolds and GRM multitarget adsorption. Towards the GRAPHEME technology commercialization, we will define the exploitation strategy, including IP positioning, market survey, business model and fundraising. This will also include partnering with key enablers – business-related and technological – for commercial success. A technical and commercial proof-of-concept will be established by developing a prototype to ultimately bring our CMs technology closer to the market. GRAPHEME will set new standards for the best exploitation of water for the mankind and will give the means to governing authorities to strengthen regulation. By developing new protocols for water purification, a major technological revolution will take place, positively affecting a number of industries.
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Web resources: | https://cordis.europa.eu/project/id/899596 |
Start date: | 01-06-2020 |
End date: | 30-11-2021 |
Total budget - Public funding: | - 150 000,00 Euro |
Cordis data
Original description
GRAPHEME will combine chemically tailored graphene and related materials (GRMs) with capillary membranes (CMs) technology to engineer a radically new generation of CMs, exploiting simultaneously the outstanding adsorption properties of GRMs with the physical sieving potential of CMs, to ultimately improve the quality of potable water. GRMs’ hybrids hold a disruptive potential as sieving materials to boost the CMs performance as they possess an ideal tailor-made structure and tunable physicochemical properties. In a recent breakthrough, foams based on GRMs functionalized with polymers were used to sequester heavy metal ions from water with an unprecedented efficiency. Their high surface area with sp2 hybridization favors the adsorption of organic molecules. The functional groups on the GRM surface enable to tune both the water permeability and the binding of ions, thereby favoring the removal of inorganic contaminants. Significantly, no other material currently used for water treatment combines all these key properties. GRAPHEME’s CMs will combine the removal of toxic pollutants with rejection of particles, microorganisms and dissolved solids thanks to the synergy between micro/ultrafiltration by CM scaffolds and GRM multitarget adsorption. Towards the GRAPHEME technology commercialization, we will define the exploitation strategy, including IP positioning, market survey, business model and fundraising. This will also include partnering with key enablers – business-related and technological – for commercial success. A technical and commercial proof-of-concept will be established by developing a prototype to ultimately bring our CMs technology closer to the market. GRAPHEME will set new standards for the best exploitation of water for the mankind and will give the means to governing authorities to strengthen regulation. By developing new protocols for water purification, a major technological revolution will take place, positively affecting a number of industries.Status
CLOSEDCall topic
ERC-2019-POCUpdate Date
27-04-2024
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