tipo de financiamento |
Fundação para a Ciência e a Tecnologia |
programa |
FCT |
acrónimo/
referência |
NANOMFC |
referência alternative |
NEW-INDIGO/0001/2013 |
grupo(s) de investigação |
3 - materiais de carbono, compósitos e revestimentos funcionais; |
departamento |
Materials and Ceramic Engineering (DEMaC) |
período de execução |
2014-07-01 - 2017-06-30 (
36 Meses )
|
resumo/
palavras-chave |
The aim of the project is to provide a world-class fuel cell through combining high-level research expertise and multidisciplinary know-how from leading research groups in EU and India. The project is highly innovative and includes risky research going beyond present state-of-the art in the field. To achieve the aim, three major objectives have been set: 1) through science and technology, solve the scientific basis of multi-functional nanocomposites, developing durable materials, standardizing laboratory measurements practices, and building a 25W test cells, 2) through cooperative models increase the impact and international visibility of research in the fields both in Europe and India; 3) through research training and exchange, educate talented young researchers in leading-edge research in LTCFC technologies and provide international perspectives and, strong networking skills. |
coordenador
/ip local |
Fernando Manuel Bico Marques |
ciceco status |
Parceiro |
instituíção proponente |
Vestel Savunma Sanayi A.S. (VSS) , Ankara, Turkey |
instituições participante(s) |
Aalto University , School of Science- Department of applied physics, Espoo, Finland; Central Glass and Ceramic Research Institute (CGCRI)- Fuel Cell and Battery Division, Kolkata, India; Indian Institute of Technology Delhi (IIT- Delhi) - Department of Chemical Engineering, New Delhi, India; Universidade de Aveiro (UAVR) - Materials and Ceramic Engineering Dept./CICECO, Aveiro, Portugal; Universitetet i Oslo (UiO) - Department of Chemistry, Solid State Electrochemistry (FASE), Oslo, Norway
|
participação industrial |
Sim |
parceiro(s) internacional |
Sim |
orçamento ciceco |
150.000€
|
centro de custos |
3.50.183 |
link |
http://indigoprojects.eu/object/project/32
|
|
|
|
|
|
|
Screening of electrode materials and cell concepts for composite ceria plus salt electrolytesJamale, AP; Marques, FMB 2018, INTERNATIONAL JOURNAL OF ENERGY RESEARCH, 42, 15, 4805-4816.
|
Response to comments on "Ionic transport in (Nano)composites for fuel cells, Int. J. Hydrogen Energy 41 (2016) 7666-7675" Mishandling of literature data on ionic conductivity enhancement in oxide plus salt compositesRondao, AIB; Martins, NCT; Patricio, SG; Marques, FMB 2017, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 42, 38, 24590-24595.
|
Composite CO2 separation membranes: Insights on kinetics and stabilityPatricio, SG; Papaioannou, EI; Ray, BM; Metcalfe, IS; Marques, FMB 2017, JOURNAL OF MEMBRANE SCIENCE, 541, 253-261.
|
On the Model Performance of Composite CO2 Separation MembranesMarques, FMB; Patricio, SG; Muccillo, E; Muccillo, R 2016, ELECTROCHIMICA ACTA, 210, 87-95.
|
Benchmarking the ambipolar conductivity of composite electrolytes for gas separation membranesPatricio, SG; Marques, FMB 2016, INTERNATIONAL JOURNAL OF ENERGY RESEARCH, 40, 15, 2150-2161.
|
Synthesis and electrochemical assessment of Ce0.5Yb0.5O1.75 ceramics and derived composite electrolytesMartins, NCT; Rajesh, S; Marques, FMB 2015, MATERIALS RESEARCH BULLETIN, 70, 449-455.
|
Stability of metal oxides against Li/Na carbonates in composite electrolytesLoureiro, FJA; Rajesh, S; Figueiredo, FML; Marques, FMB 2014, RSC ADVANCES, 4, 104, 59943-59952.
|
|
|