Correlation between kinetics and chemical bonding state of catalyst surface in catalyzed magnesium hydride
スポンサーリンク
概要
- 論文の詳細を見る
We reported on the hydrogen desorption properties, microstructure, kinetics, and chemical bonding state of catalyst surface for composites of MgH2 and 1 mol% Nb2O5 ball-milled for 0.02 h, 0.2 h, 2 h, 20 h under 1 MPa H2 atmosphere, as well as hand-mixed (HM) one. Hydrogen desorption properties were significantly improved by ball-milling with Nb2O5. Then, we estimated by Kissinger Method the activation energy (Ea) of hydrogen desorption reaction that decreased with the increase of ball-milling time. Especially, Ea of the sample ball-milled for 0.2 h was drastically decreased, compared with that of the sample ball-milled for 0.02 h. TEM observations revealed that the distribution of Nb2O5 in MgH2 was gradually improved during ball-milling. On the other hand, we confirmed by XPS that in the sample ball-milled for 0.2 h, Nb_[2]O_[5-x] phase(s) existed at least on the surface. It can be suggested that these deoxidized Nb_[2]O_[5-x] phases eventually decrease Ea as substantial catalyst rather than Nb2O5 itself.
著者
関連論文
- Raman Scattering and Infrared Absorption Investigation of Hydrogen Configuration State in Mechanically Milled Graphite under H_2 Gas Atmosphere (Condensed Matter: Electronic Structure, Electrical, Magnetic and Optical Properties)
- Variable temperature neutron diffraction studies of single crystals of LiND2
- Identifying catalyst in Li-N-H system by x-ray absorption spectroscopy
- Correlation between kinetics and chemical bonding state of catalyst surface in catalyzed magnesium hydride
- Hydrogen Desorption Properties of Lithium-Carbon-Hydrogen System