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ELECTRON4WATER

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Three dimensional nanoelectrochemical systems based on low cost reduced graphene...

Three dimensional nanoelectrochemical systems based on low cost reduced graphene oxide the next generation of water treatment systems The ever-increasing environmental input of toxic chemicals is rapidly deteriorating the health of our ecosystems and, above all, jeopardizing human health. Overcoming the challenge of water pollution requires novel water treatment... see more

30/06/2023

FUNDACIO INSTITUT...

1M€

Project Budget: 1M€

Project leader

FUNDACIO INSTITUT CATALA DE RECERCA DEL AIGUA... Otra investigación y desarrollo experimental en ciencias naturales y técnicas asociacion

TRL 4-5 | 100K€

PARTICIPATION DEPralty Sin fecha límite de participación.

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Financing granted El organismo H2020 notifico la concesión del proyecto The day 2023-06-30

ERC-2016-STG: ERC Starting Grant Scope:Objectives

I+D

Cerrada does 9 years

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characteristics of the participant

Este proyecto no cuenta con búsquedas de partenariado abiertas en este momento.

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2 Participantes

FUNDACIO INSTITUT CATALA DE...

1.49M€ | Leader

ZURKO RESEARCH

347.67K€ | participant

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Project duration: 80 months Date Start: 2016-10-18
End date: 2023-06-30

Project leader

FUNDACIO INSTITUT CATALA DE RECERCA DEL AIGUA... Otra investigación y desarrollo experimental en ciencias naturales y técnicas asociacion

TRL 4-5 | 100K€

Project Budget 1M€

participation deadline Sin fecha límite de participación.

Project description The ever-increasing environmental input of toxic chemicals is rapidly deteriorating the health of our ecosystems and, above all, jeopardizing human health. Overcoming the challenge of water pollution requires novel water treatment technologies that are sustainable, robust and energy efficient. ELECTRON4WATER proposes a pioneering, chemical-free water purification technology: a three-dimensional (3D) nanoelectrochemical system equipped with low-cost reduced graphene oxide (RGO)-based electrodes. Existing research on graphene-based electrodes has been focused on supercapacitor applications and synthesis of defect-free, superconductive graphene. I will, on the contrary, use the defective structure of RGO to induce the production of reactive oxygen species and enhance electrocatalytic degradation of pollutants. I will investigate for the first time the electrolysis reactions at 3D electrochemically polarized RGO-coated material, which offers high catalytic activity and high surface area available for electrolysis. This breakthrough approach in electrochemical reactor design is expected to greatly enhance the current efficiency and achieve complete removal of persistent contaminants and pathogens from water without using any chemicals, just by applying the current. Also, high capacitance of RGO-based material can enable further energy savings and allow using intermittent energy sources such as photovoltaic panels. These features make 3D nanoelectrochemical systems particularly interesting for distributed, small-scale applications. This project will aim at: i) designing the optimum RGO-based material for specific treatment goals, ii) mechanistic understanding of (electro)catalysis and (electro)sorption of persistent pollutants at RGO and electrochemically polarized RGO, iii) understanding the role of inorganic and organic matrix and recognizing potential process limitations, and iv) developing tailored, adaptable solutions for the treatment of contaminated water.

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