Projects
Advanced Electroceramics: Grain Boundary Engineering (Advanced Electroceramics)
Local CoordinatorEuropean Comission
The main objective of the COST Action 525 was to understand the role played by grain boundaries in controlling the manufacture, microstructure and properties of electronic ceramics. Components made out such materials have enhanced properties, improved stability and reduced unit cost. The Action revealed also new opportunities for existing and de...Carbon-depolarized high-temperature steam electrolysis (CARBOSTEAM)
PartnerFundação para a Ciência e a Tecnologia
Design de materiais termoeletricos avancados por efeitos redox: Progressos para aplicacoes de alta temperatura . (REMOTE)
PartnerFundação para a Ciência e a Tecnologia
Development of new interstitial oxide-ion conductors for effective oxygen separation and conversion of the hydrocarbons (POCI/CTM/59197/2004)
PartnerFundação para a Ciência e a Tecnologia
mixed ion and electron conductor ionic conductivity oxygen permeability hydrocarbon partial oxidationInnovative Products and Technologies from Eucalyptus Project (InPacTus)
PartnerIndustry National
Inpactus, to be developed by the Consortium, aims to develop new solutions, such as cellulosic pulps with innovative features, new paper products with different specificities and functions, tissue paper with innovative properties, new bioproducts, biofuels and other materials obtained from the deconstruction and conversion of forest biomass and ...KnowledgeH2 - Improving Hydrogen Energy knowledge arround European Union (KnowledgeH2)
Local CoordinatorEuropean Comission
In this project, creating new educational materials related with hydrogen energy in the other name hydrogen economy which is not developed yet, to improve knowledge is aimed. For this purpose, created video and audio files, tests and texts is being tried to disseminate by website. Hence, 10 partner foundation and institution employees from diffe...Long Lasting reinforced Concrete for Energy Infrastructure under Severe Operating (LORCENIS)
PartnerEuropean Comission
The main goal of the LORCENIS project is to develop long reinforced concrete for energy infrastructures with lifetime extended up to a 100% under extreme operating conditions. The concept is based on an optimal combinationof novel technologies involving customized methodologies for cost-efficient operation. 4 scenarios of severe oper...Multi-Functional Nanocomposite Materials For Low-Temperature Ceramic Fuel Cells (NANOMFC )
Local CoordinatorFundação para a Ciência e a Tecnologia
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 ...NANOCELL - Nanocomposite Electrolytes for Intermediate Temperature Fuel Cells (PTDC/CTM/098486/2008)
CoordinatorFundação para a Ciência e a Tecnologia
nanocomposites electrolytes ceramics fuel cellsNANOCOFC - Enhancement of research capabilities on multi-functional Nanocomposites for advanced fuel cell Technology through EU-Turkish-China Cooperation (NANOCOFC)
CoordinatorEuropean Comission
The project aims to enhance research capacities on nanotechnology, multi-functional materials and advanced applications. Material innovations and advances are created on the multi-functional nano-composites concerning superionic conduction; hybrid H+/O2-conduction; nano-composite ionics; and next generation fuel cell technology.Novel approach to Power-to-Fuel: comprehensive studies of anodic processes in Direct Carbon Solid Oxide Fuel-assisted Electrolysis Cell (DC-SOFEC)
PartnerOther International
Novel Ceramic Membranes for Synthesis Gas Production (POCI/CTM/58570/2004)
PartnerFundação para a Ciência e a Tecnologia
mixed conductor ceramic membrane synthesis gas ionic transportNovel layered ferrits materials with mixed ionic-electronic conductivity for applications in alternative energy sources (PTDC/CTM/64357/2006)
PartnerFundação para a Ciência e a Tecnologia
Mixed conductors Ceramic membranes SOFC electrodes Ionic TransportNovel methodological approaches to analyze ion transport mechanism in complex crystal lattices and to forecast performance-determining parameters of the oxide materials (PTDC/CTM-CER/114561/2009)
PartnerFundação para a Ciência e a Tecnologia
ionic transport point defects molecular dynamics Moessbauer spectroscopyNovel molten carbonate/ceramic composite materials for sustainable energy technologies with. CO2 capture and utilization (MOCO3)
Local CoordinatorFundação para a Ciência e a Tecnologia
The MOCO3 project focuses on the development of novel composite materials consisting of molten carbonates infiltrated in a solid matrix as functional materials in intermediate temperature fuel cells and CO2 selective membranes. MOCO3 addresses performance and lifetime of these systems by focusing on materials engineering at all length scales (at...SOFCNET - Thematic network on solid oxide fuel cell technology (SOFCNET)
Local CoordinatorEuropean Comission
This proposal suggests the establishment of the thematic network SOFCNET. The objective of SOFCNET is the support and acceleration of European industrial development. By bringing together all types (from universities to end users) of SOFC involved organisations in Europe, the network promotes knowledge exchange, a better understanding of industr...Solucao de Engenharia Microestrutural para Aumentar o Transporte Ionico Interfacial (MERIT)
CoordinatorFundação para a Ciência e a Tecnologia
Zero CO2 emissions: challenge and foresight for innovative multi-ionic functional membranes (CO2zero)
CoordinatorFundação para a Ciência e a Tecnologia
Publications
Transport properties and stability of Ni-containing mixed conductors with perovskite- and K2NiF4-type structure
Kharton, VV; Yaremchenko, AA; Shaula, AL; Patrakeev, MV; Naumovich, EN; Loginovich, DI; Frade, JR; Marques, FMB
2004, JOURNAL OF SOLID STATE CHEMISTRY, 177, 1, 26-37.
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Oxygen ionic and electronic transport in apatite-type solid electrolytes
Kharton, VV; Shaula, AL; Patrakeev, MV; Waerenborgh, JC; Rojas, DP; Vyshatko, NP; Tsipis, EV; Yaremchenko, AA; Marques, FMB
2004, JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 151, 8, A1236-A1246.
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Assessment of stability and protonic conduction in NASICON ceramics
Fuentes, RO; Smirnova, OA; Kharton, VV; Figueiredo, FM; Marques, FM
2004, JOURNAL OF THE EUROPEAN CERAMIC SOCIETY, 24, 10-11, 3049-3055.
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Oxygen permeability of transition metal-containing La(Sr,Pr)Ga(Mg)O3-delta ceramic membranes
Yaremchenko, AA; Shaula, AL; Kharton, VV; Kovalevsky, AV; Naumovich, EN; Frade, JR; Marques, FBM
2004, BOLETIN DE LA SOCIEDAD ESPANOLA DE CERAMICA Y VIDRIO, 43, 4, 769-774.
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Glass-ceramics in the former Soviet Union: a review on industry-oriented developments
Tulyaganov, DU; Agathopoulos, S; Kharton, VV; Marques, FMB
2003, INDUSTRIAL CERAMICS, 23, 2, 101-115.
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Structural characterization of mixed conducting perovskites La(Ga,M)O3-delta (M = Mn, Fe, Co, Ni)
Vyshatko, NP; Kharton, V; Shaula, AL; Naumovich, EN; Marques, FMB
2003, MATERIALS RESEARCH BULLETIN, 38, 2, 185-193.
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Oxygen ionic conduction in brownmillerite CaAl0.5Fe0.5O2.5+delta
Kharton, VV; Marozau, IP; Vyshatko, NP; Shaula, AL; Viskup, AP; Naumovich, EN; Marques, FMB
2003, MATERIALS RESEARCH BULLETIN, 38, 5, 773-782.
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Crystalchemistry and oxide ion conductivity in the lanthanum oxygermanate apatite series
Leon-Reina, L; Martin-Sedeno, MC; Losilla, ER; Cabeza, A; Martinez-Lara, M; Bruque, S; Marques, FMB; Sheptyakov, DV; Aranda, MAG
2003, CHEMISTRY OF MATERIALS, 15, 10, 2099-2108.
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Stability and thermal expansion of Na+-conducting ceramics
Smirnova, OA; Fuentes, RO; Figueiredo, F; Kharton, VV; Marques, FMB
2003, JOURNAL OF ELECTROCERAMICS, 11, 3, 179-189.
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Ionic transport in Gd3Fe5O12- and Y3Fe5O12-based garnets
Kharton, VV; Shaula, AL; Naumovich, EN; Vyshatko, NP; Marozau, IP; Viskup, AP; Marques, FMB
2003, JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 150, 7, J33-J42.
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Oxygen ion-conducting materials.
In Kharton VV (Eds.), Solid State Electrochemistry I: Fundamentals, Materials and their Applications
Kharton VV, Marques FMB, Kilner JA, Atkinson A
2009, 301-334, Weinheim, Germany, Wiley-VCH.
ISBN:
978-3-527-32318-0
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Sensores de Oxigénio
In Fortes A, Ferreira P (Eds.), Materiais Dois Mil
Marques FMB, Frade JR, Labrincha JA
2003, Lisbon, Ist Press.
ISBN:
9789728469238
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Sensores Químicos
In Fortes MA, Ferreira PJ (Eds.), Materiais Dois Mil
Marques FMB, Labrincha JA, Frade JR
2003, 491-498, Ist Press.
ISBN:
9789728469238
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Condutores Iónicos
In Fortes MA, Ferreira PJ (Eds.), Materiais Dois Mil
Figueiredo FM, Marques FMB, Frade JR
2003, 353-361, Ist Press.
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