The Experts below are selected from a list of 6177 Experts worldwide ranked by ideXlab platform
Antoni W Morawski - One of the best experts on this subject based on the ideXlab platform.
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porous carbon obtained by carbonization of pet mixed with basic Magnesium carbonate pore structure and pore creation mechanism
Industrial & Engineering Chemistry Research, 2009Co-Authors: Jacek Przepiorski, Justyna Karolczyk, Kazuhiro Takeda, Tomoki Tsumura, Masahiro Toyoda, Antoni W MorawskiAbstract:Porous carbon materials were prepared by heating of a PET [poly(ethylene terephtalate)] and Magnesium carbonate (3MgCO3·Mg(OH)2·3H2O) mixture under Ar gas flow, followed by acid washing. The inorganic component of the mixture underwent thermal decomposition with formation of MgO and evolution of gaseous products including CO2 and H2O. Influence of the Magnesium Compound mixed with PET, and carbonization temperature on the pore structure of carbonaceous material is presented. As found, porosity of prepared materials depended on Magnesium carbonate loading in the starting mixture and on heating temperature. The impact of CO2 and H2O evolved during heating on the pore structure is discussed, and a mechanism of pore formation is proposed.
Jacek Przepiorski - One of the best experts on this subject based on the ideXlab platform.
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porous carbon obtained by carbonization of pet mixed with basic Magnesium carbonate pore structure and pore creation mechanism
Industrial & Engineering Chemistry Research, 2009Co-Authors: Jacek Przepiorski, Justyna Karolczyk, Kazuhiro Takeda, Tomoki Tsumura, Masahiro Toyoda, Antoni W MorawskiAbstract:Porous carbon materials were prepared by heating of a PET [poly(ethylene terephtalate)] and Magnesium carbonate (3MgCO3·Mg(OH)2·3H2O) mixture under Ar gas flow, followed by acid washing. The inorganic component of the mixture underwent thermal decomposition with formation of MgO and evolution of gaseous products including CO2 and H2O. Influence of the Magnesium Compound mixed with PET, and carbonization temperature on the pore structure of carbonaceous material is presented. As found, porosity of prepared materials depended on Magnesium carbonate loading in the starting mixture and on heating temperature. The impact of CO2 and H2O evolved during heating on the pore structure is discussed, and a mechanism of pore formation is proposed.
Ryoichi Saotome - One of the best experts on this subject based on the ideXlab platform.
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coating liquid for forming metal oxide thin film metal oxide thin film field effect transistor and method for manufacturing field effect transistor
2012Co-Authors: Yuki Nakamura, Naoyuki Ueda, Yukiko Abe, Yuji Sone, Shinji Matsumoto, Mikiko Takada, Ryoichi SaotomeAbstract:To provide a coating liquid for forming a metal oxide film, containing: an indium Compound; at least one selected from the group consisting of a Magnesium Compound, a calcium Compound, a strontium Compound, and a barium Compound; at least one selected from the group consisting of a Compound containing a metal a maximum positive value of an oxidation number of which is IV, a Compound containing a metal a maximum positive value of an oxidation number of which is V, and a Compound containing a metal a maximum positive value of an oxidation number of which is VI; and an organic solvent.
Justyna Karolczyk - One of the best experts on this subject based on the ideXlab platform.
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porous carbon obtained by carbonization of pet mixed with basic Magnesium carbonate pore structure and pore creation mechanism
Industrial & Engineering Chemistry Research, 2009Co-Authors: Jacek Przepiorski, Justyna Karolczyk, Kazuhiro Takeda, Tomoki Tsumura, Masahiro Toyoda, Antoni W MorawskiAbstract:Porous carbon materials were prepared by heating of a PET [poly(ethylene terephtalate)] and Magnesium carbonate (3MgCO3·Mg(OH)2·3H2O) mixture under Ar gas flow, followed by acid washing. The inorganic component of the mixture underwent thermal decomposition with formation of MgO and evolution of gaseous products including CO2 and H2O. Influence of the Magnesium Compound mixed with PET, and carbonization temperature on the pore structure of carbonaceous material is presented. As found, porosity of prepared materials depended on Magnesium carbonate loading in the starting mixture and on heating temperature. The impact of CO2 and H2O evolved during heating on the pore structure is discussed, and a mechanism of pore formation is proposed.
Masahiro Toyoda - One of the best experts on this subject based on the ideXlab platform.
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porous carbon obtained by carbonization of pet mixed with basic Magnesium carbonate pore structure and pore creation mechanism
Industrial & Engineering Chemistry Research, 2009Co-Authors: Jacek Przepiorski, Justyna Karolczyk, Kazuhiro Takeda, Tomoki Tsumura, Masahiro Toyoda, Antoni W MorawskiAbstract:Porous carbon materials were prepared by heating of a PET [poly(ethylene terephtalate)] and Magnesium carbonate (3MgCO3·Mg(OH)2·3H2O) mixture under Ar gas flow, followed by acid washing. The inorganic component of the mixture underwent thermal decomposition with formation of MgO and evolution of gaseous products including CO2 and H2O. Influence of the Magnesium Compound mixed with PET, and carbonization temperature on the pore structure of carbonaceous material is presented. As found, porosity of prepared materials depended on Magnesium carbonate loading in the starting mixture and on heating temperature. The impact of CO2 and H2O evolved during heating on the pore structure is discussed, and a mechanism of pore formation is proposed.
