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Structural–Transport Properties Relationships on Ce1–xLnxO2−δ System (Ln = Gd, La, Tb, Pr, Eu, Er, Yb, Nd) and Effect of Cobalt Addition
A large series of doped cerias have been prepared by the coprecipitation method combined with impregnation and completely characterized in order to have an overall understanding of the structural,Expand
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Application of artificial neural networks to combinatorial catalysis: modeling and predicting ODHE catalysts.
This paper shows how artificial neural networks are useful for modeling catalytic data from combinatorial catalysis and for predicting new potential catalyst compositions for the oxidativeExpand
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DoE framework for catalyst development based on soft computing techniques
A generalist, configurable and parameterizable experimental design framework has been developed for the discovery and optimization of catalytic materials when exploring a high-dimensional space. Expand
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Can artificial neural networks help the experimentation in catalysis
This work is focused on the practical application of artificial intelligent techniques in chemical engineering. Specifically, it describes an application of artificial neural networks for modellingExpand
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Particular Transport Properties of NiFe2O4 Thin Films at High Temperatures
NiFe2O4 (NFO) thin films were deposited on quartz substrates by rf magnetron sputtering, and the influence of the deposition conditions on their physic-chemical properties was studied. The filmsExpand
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Development of CO2 Protective Layers by Spray Pyrolysis for Ceramic Oxygen Transport Membranes
Ceramic mixed ionic–electronic conducting (MIEC) membranes enable very selective oxygen separation from air at high temperatures. Two major potential applications of oxygen-transport membranes are:Expand
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On the Use of Supported Ceria Membranes for Oxyfuel process / Syngas Production
Abstract Ceramic oxygen transport membranes (OTMs) enable selective oxygen separation from air at high temperatures. Among several potential applications for OTMs, the use in (1) oxygen productionExpand
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Fast Oxygen Separation Through SO2- and CO2-Stable Dual-Phase Membrane Based on NiFe2O4–Ce0.8Tb0.2O2-δ
Composite membranes with enhanced oxygen permeability and unprecedented stability in oxyfuel-like gas environments are reported. Specifically, 60 vol% NiFe2O4 - 40 vol% Ce0.8Tb0.2O2-δ (NFO-CTO)Expand
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Thermo-electrochemical production of compressed hydrogen from methane with near-zero energy loss
Conventional production of hydrogen requires large industrial plants to minimize energy losses and capital costs associated with steam reforming, water–gas shift, product separation and compression.Expand
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Preparation and properties of thin La1−xSrxCo1−yFeyO3−δ perovskitic membranes supported on tailored ceramic substrates
Abstract Mixed conducting La 1− x Sr x Co 1− y Fe y O 3− δ (LSFC) perovskites are promising materials for oxygen separation membranes at high temperatures. Gastight 10–20 μm-thick perovskite layersExpand
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