Summary
This PoC proposal is dedicated to the development of a new soft matter technology for paper preservation. Building on the recent ERC grant of the PI, MIMIC, that was mainly a theoretical and numerical effort on “Modelling microgels” in close synergy with experiments, MICROTECH proposes to exploit this fascinating class of soft colloids in a new application for cultural heritage. Microgels are colloidal-scale polymer networks, whose properties intrinsically depend on those of the constituent polymers. While most studies deal with thermoresponsive ones, here we propose to use gellan gum, a widely used biopolymer, since gellan gum hydrogels have been previously used to treat paper artifacts. We recently showed the use of gellan gum microgels is more advantageous with respect to hydrogels both in terms of efficacy and of application time.
The proposed technology is ground-breaking because it will significantly reduce the economic costs of the treatment, it is environmentally friendly and also versatile. Indeed, we will functionalize the gellan macromolecule in order to optimize the specific interactions with the different nature of the surfaces to be treated. The main objectives of the interdisciplinary MICROTECH project will be to optimize the preparation, the functionalization and the long-time conservation of the microgels; to validate the technology on real samples, thanks to the collaborations with interested companies, who already expressed their Letters of Support; to perform a pre-commercialization study in terms of IPR and market analysis; to create of network of potential partners and users; finally, to deliver a ready-to-use microgel formulation and a business plan. Therefore, at the completion of the project, we expect that the technology will be available to potential end users.
The proposed technology is ground-breaking because it will significantly reduce the economic costs of the treatment, it is environmentally friendly and also versatile. Indeed, we will functionalize the gellan macromolecule in order to optimize the specific interactions with the different nature of the surfaces to be treated. The main objectives of the interdisciplinary MICROTECH project will be to optimize the preparation, the functionalization and the long-time conservation of the microgels; to validate the technology on real samples, thanks to the collaborations with interested companies, who already expressed their Letters of Support; to perform a pre-commercialization study in terms of IPR and market analysis; to create of network of potential partners and users; finally, to deliver a ready-to-use microgel formulation and a business plan. Therefore, at the completion of the project, we expect that the technology will be available to potential end users.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/101066434 |
| Start date: | 01-09-2022 |
| End date: | 29-02-2024 |
| Total budget - Public funding: | - 150 000,00 Euro |
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Original description
This PoC proposal is dedicated to the development of a new soft matter technology for paper preservation. Building on the recent ERC grant of the PI, MIMIC, that was mainly a theoretical and numerical effort on “Modelling microgels” in close synergy with experiments, MICROTECH proposes to exploit this fascinating class of soft colloids in a new application for cultural heritage. Microgels are colloidal-scale polymer networks, whose properties intrinsically depend on those of the constituent polymers. While most studies deal with thermoresponsive ones, here we propose to use gellan gum, a widely used biopolymer, since gellan gum hydrogels have been previously used to treat paper artifacts. We recently showed the use of gellan gum microgels is more advantageous with respect to hydrogels both in terms of efficacy and of application time.The proposed technology is ground-breaking because it will significantly reduce the economic costs of the treatment, it is environmentally friendly and also versatile. Indeed, we will functionalize the gellan macromolecule in order to optimize the specific interactions with the different nature of the surfaces to be treated. The main objectives of the interdisciplinary MICROTECH project will be to optimize the preparation, the functionalization and the long-time conservation of the microgels; to validate the technology on real samples, thanks to the collaborations with interested companies, who already expressed their Letters of Support; to perform a pre-commercialization study in terms of IPR and market analysis; to create of network of potential partners and users; finally, to deliver a ready-to-use microgel formulation and a business plan. Therefore, at the completion of the project, we expect that the technology will be available to potential end users.
Status
SIGNEDCall topic
ERC-2022-POC1Update Date
09-02-2023
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