|
|
Engineered Conductive Proteins for Bioelectronics
| tipo de financiamento | European Comission |
| programa | H2020-EU.1.2.1. - FET Open |
|
acrónimo/ referência |
E-PROT |
| referência alternative | 964593 |
| grupo(s) de investigação |
6 - simulação computacional e modelação multi-escala; |
| departamento | Chemistry (DQ) |
| período de execução | 2021-09-01 - 2025-08-31 ( 48 Meses ) |
|
resumo/ palavras-chave |
Proteins demonstrate exceptional structural and electrical conduction properties for designing functional materials. The goal of the EU-funded e-Prot project is to rationally design efficient conductive protein systems and produce protein-based conductive structures and materials. This breakthrough relies on a multidisciplinary scientific approach that combines a profound understanding of protein building blocks, biomolecular design principles and state-of-the-art synthetic biology, as well as cutting-edge characterisation techniques and computational models of protein conduction properties. Selected engineered conductive proteins will be upscaled and will find use as smart ink-based conductors and ionic electrolytes in energy storage devices. |
|
coordenador /ip local |
Manuel Melle-Franco |
| ciceco status | Parceiro |
| instituíção proponente | ASOCIACION CENTRO DE INVESTIGACION COOPERATIVA EN BIOMATERIALES- CIC biomaGUNE |
| participação industrial | Sim |
| orçamento total | 3.103.460€ |
| orçamento ciceco | 374.109€ |
| centro de custos | 3.89.346 |
| link | https://cordis.europa.eu/project/id/964593 |
membros do projeto
| publicações |
|---|
|
|
