The Experts below are selected from a list of 8811 Experts worldwide ranked by ideXlab platform
Elisabeth Djurado - One of the best experts on this subject based on the ideXlab platform.
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porosity control of lsm ysz cathode coating deposited by electrospraying
Chemistry of Materials, 2005Co-Authors: A. Princivalle, Roberto Neagu, Dainius Perednis, Elisabeth DjuradoAbstract:The deposition of a composite electrode, which consisted of a mixture of a solid electrolyte (YSZ) and an electrocatalytic material (LSM), on an YSZ substrate was studied using the electrostatic spray deposition (ESD) technique. Films with various morphologies were obtained. The surface morphology was strongly influenced by the deposition temperature, precursor solution flow rate, and nozzle to substrate distance as a function of the nature of precursor solution. Processes involved in the Porous Film formation were discussed. Powder X-ray diffraction analysis showed that only the LSM hexagonal phase and the cubic YSZ phase were formed in the LSM/YSZ composite cathode after thermal treatment at 800 °C.
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Porosity control of LSM/YSZ cathode coating deposited by electrospraying
Chemistry of Materials, 2005Co-Authors: A. Princivalle, Roberto Neagu, Dainius Perednis, Elisabeth DjuradoAbstract:The deposition of a composite electrode, which consisted of a mixture of a solid electrolyte (YSZ) and an electrocatalytic material (LSM), on an YSZ substrate was studied using the electrostatic spray deposition (ESD) technique. Films with various morphologies were obtained. The surface morphology was strongly influenced by the deposition temperature, precursor solution flow rate, and nozzle to substrate distance as a function of the nature of precursor solution. Processes involved in the Porous Film formation were discussed. Powder X-ray diffraction analysis showed that only the LSM hexagonal phase and the cubic YSZ phase were formed in the LSM/YSZ composite cathode after thermal treatment at 800 degreesC
A. Princivalle - One of the best experts on this subject based on the ideXlab platform.
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porosity control of lsm ysz cathode coating deposited by electrospraying
Chemistry of Materials, 2005Co-Authors: A. Princivalle, Roberto Neagu, Dainius Perednis, Elisabeth DjuradoAbstract:The deposition of a composite electrode, which consisted of a mixture of a solid electrolyte (YSZ) and an electrocatalytic material (LSM), on an YSZ substrate was studied using the electrostatic spray deposition (ESD) technique. Films with various morphologies were obtained. The surface morphology was strongly influenced by the deposition temperature, precursor solution flow rate, and nozzle to substrate distance as a function of the nature of precursor solution. Processes involved in the Porous Film formation were discussed. Powder X-ray diffraction analysis showed that only the LSM hexagonal phase and the cubic YSZ phase were formed in the LSM/YSZ composite cathode after thermal treatment at 800 °C.
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Porosity control of LSM/YSZ cathode coating deposited by electrospraying
Chemistry of Materials, 2005Co-Authors: A. Princivalle, Roberto Neagu, Dainius Perednis, Elisabeth DjuradoAbstract:The deposition of a composite electrode, which consisted of a mixture of a solid electrolyte (YSZ) and an electrocatalytic material (LSM), on an YSZ substrate was studied using the electrostatic spray deposition (ESD) technique. Films with various morphologies were obtained. The surface morphology was strongly influenced by the deposition temperature, precursor solution flow rate, and nozzle to substrate distance as a function of the nature of precursor solution. Processes involved in the Porous Film formation were discussed. Powder X-ray diffraction analysis showed that only the LSM hexagonal phase and the cubic YSZ phase were formed in the LSM/YSZ composite cathode after thermal treatment at 800 degreesC
Roberto Neagu - One of the best experts on this subject based on the ideXlab platform.
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porosity control of lsm ysz cathode coating deposited by electrospraying
Chemistry of Materials, 2005Co-Authors: A. Princivalle, Roberto Neagu, Dainius Perednis, Elisabeth DjuradoAbstract:The deposition of a composite electrode, which consisted of a mixture of a solid electrolyte (YSZ) and an electrocatalytic material (LSM), on an YSZ substrate was studied using the electrostatic spray deposition (ESD) technique. Films with various morphologies were obtained. The surface morphology was strongly influenced by the deposition temperature, precursor solution flow rate, and nozzle to substrate distance as a function of the nature of precursor solution. Processes involved in the Porous Film formation were discussed. Powder X-ray diffraction analysis showed that only the LSM hexagonal phase and the cubic YSZ phase were formed in the LSM/YSZ composite cathode after thermal treatment at 800 °C.
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Porosity control of LSM/YSZ cathode coating deposited by electrospraying
Chemistry of Materials, 2005Co-Authors: A. Princivalle, Roberto Neagu, Dainius Perednis, Elisabeth DjuradoAbstract:The deposition of a composite electrode, which consisted of a mixture of a solid electrolyte (YSZ) and an electrocatalytic material (LSM), on an YSZ substrate was studied using the electrostatic spray deposition (ESD) technique. Films with various morphologies were obtained. The surface morphology was strongly influenced by the deposition temperature, precursor solution flow rate, and nozzle to substrate distance as a function of the nature of precursor solution. Processes involved in the Porous Film formation were discussed. Powder X-ray diffraction analysis showed that only the LSM hexagonal phase and the cubic YSZ phase were formed in the LSM/YSZ composite cathode after thermal treatment at 800 degreesC
Dainius Perednis - One of the best experts on this subject based on the ideXlab platform.
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porosity control of lsm ysz cathode coating deposited by electrospraying
Chemistry of Materials, 2005Co-Authors: A. Princivalle, Roberto Neagu, Dainius Perednis, Elisabeth DjuradoAbstract:The deposition of a composite electrode, which consisted of a mixture of a solid electrolyte (YSZ) and an electrocatalytic material (LSM), on an YSZ substrate was studied using the electrostatic spray deposition (ESD) technique. Films with various morphologies were obtained. The surface morphology was strongly influenced by the deposition temperature, precursor solution flow rate, and nozzle to substrate distance as a function of the nature of precursor solution. Processes involved in the Porous Film formation were discussed. Powder X-ray diffraction analysis showed that only the LSM hexagonal phase and the cubic YSZ phase were formed in the LSM/YSZ composite cathode after thermal treatment at 800 °C.
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Porosity control of LSM/YSZ cathode coating deposited by electrospraying
Chemistry of Materials, 2005Co-Authors: A. Princivalle, Roberto Neagu, Dainius Perednis, Elisabeth DjuradoAbstract:The deposition of a composite electrode, which consisted of a mixture of a solid electrolyte (YSZ) and an electrocatalytic material (LSM), on an YSZ substrate was studied using the electrostatic spray deposition (ESD) technique. Films with various morphologies were obtained. The surface morphology was strongly influenced by the deposition temperature, precursor solution flow rate, and nozzle to substrate distance as a function of the nature of precursor solution. Processes involved in the Porous Film formation were discussed. Powder X-ray diffraction analysis showed that only the LSM hexagonal phase and the cubic YSZ phase were formed in the LSM/YSZ composite cathode after thermal treatment at 800 degreesC
Chihhang Tung - One of the best experts on this subject based on the ideXlab platform.
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dielectric property and microstructure of a Porous polymer material with ultralow dielectric constant
Applied Physics Letters, 1999Co-Authors: Yuhuan Xu, Yipin Tsai, K N Tu, Bin Zhao, Maureen R Brongo, George T T Sheng, Chihhang TungAbstract:This letter reports the synthesis and dielectric properties of a Porous poly(arylethers) material with an ultralow dielectric constant for interlayer dielectric applications in microelectronics. The Porous polymer Films were fabricated by a method of organic phase separation and evaporation. A dielectric constant of 1.8 was achieved for a Porous Film with an estimated porosity of 40%. The characterization of microstucture for the Porous Film showed numerous nanopores with an average size of 3 nm distributed uniformly throughout the Film.
