Summary
Plastics are playing indispensable parts in the modern civilization. Given its beneficial characteristics, it would be hard to envisage a world without plastics. However, a more sustainable method to manage plastics after usage is critically needed in the present scenario. So far wide variety of plastics have been produced over 8 billion tons, out of which about 40% have been superfluous. The plastic waste ends up as a litter, in the environment will become small fragments as microplastics (MiP)/ Nanoplastics (NiP) and only degrade slowly in natural environments and persist over years. In past decades, scientific community has investigated the efficient remediation technologies towards MiP waste. However, contemplating the MiP waste reforming to value added material, still has profound knowledge gaps. The chemical upcycling suggests a promising approach to deal with the challenges triggered by plastic wastes. Hydrogen could become an excellent energy carrier to appease the energy demand of humankind as a sustainable future alternative energy economy. The conversion of MiP into value added hydrogen fuel by photo-reforming is a newly emerging field with enormous economic potential. To better combatting the global challenges of MiP contamination, heterogenous nanomaterials play vital role due its surface functionality. The present proposed work underlines the on-site upgrading of MiP with self-propelled heterostructured 3D carbon nanofibrous based architectures (carbon-MXene/Fe-Mo2N) will be used for hydrogen evolution by photo-electrocatalytic method. These present approaches help to demonstrate ‘trash to treasure’ generation of clean H2 fuel on plastic upcycling to overcome the economical hurdle and building a pollution free economy. It helps inspiring more electrocatalytic process based fuel production in future energy.
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| Web resources: | https://cordis.europa.eu/project/id/101130785 |
| Start date: | 01-09-2023 |
| End date: | 31-08-2025 |
| Total budget - Public funding: | - 166 278,00 Euro |
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Original description
Plastics are playing indispensable parts in the modern civilization. Given its beneficial characteristics, it would be hard to envisage a world without plastics. However, a more sustainable method to manage plastics after usage is critically needed in the present scenario. So far wide variety of plastics have been produced over 8 billion tons, out of which about 40% have been superfluous. The plastic waste ends up as a litter, in the environment will become small fragments as microplastics (MiP)/ Nanoplastics (NiP) and only degrade slowly in natural environments and persist over years. In past decades, scientific community has investigated the efficient remediation technologies towards MiP waste. However, contemplating the MiP waste reforming to value added material, still has profound knowledge gaps. The chemical upcycling suggests a promising approach to deal with the challenges triggered by plastic wastes. Hydrogen could become an excellent energy carrier to appease the energy demand of humankind as a sustainable future alternative energy economy. The conversion of MiP into value added hydrogen fuel by photo-reforming is a newly emerging field with enormous economic potential. To better combatting the global challenges of MiP contamination, heterogenous nanomaterials play vital role due its surface functionality. The present proposed work underlines the on-site upgrading of MiP with self-propelled heterostructured 3D carbon nanofibrous based architectures (carbon-MXene/Fe-Mo2N) will be used for hydrogen evolution by photo-electrocatalytic method. These present approaches help to demonstrate ‘trash to treasure’ generation of clean H2 fuel on plastic upcycling to overcome the economical hurdle and building a pollution free economy. It helps inspiring more electrocatalytic process based fuel production in future energy.Status
SIGNEDCall topic
HORIZON-WIDERA-2022-TALENTS-04-01Update Date
31-07-2023
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