Features and mechanism of H- anion emission from 12 CaO x 7 Al2O3 surface

Features and mechanism of H- anion emission from 12 CaO x 7 Al2O3 surface

The hydrogen anion (H-) and other anionic species (O-, OH-, e-) in the gas phase, emitted from the synthesized crystal surface of 12 CaO x 7 Al2O3-H- (C12A7-H-), have been observed. The emission intensity of all the anionic species strongly depends on the sample surface temperature and the extractio...

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Veröffentlicht in:The journal of physical chemistry. B 2005-06, Vol.109 (24), p.12032-12037
Hauptverfasser: Huang, Fan, Li, Jiang, Wang, Lian, Dong, Ting, Tu, Jing, Torimoto, Yoshifumi, Sadakata, Masayoshi, Li, Quanxin
Format: Artikel
Sprache:eng
Schlagworte:
Aluminum Oxide - chemistry
Anions - chemistry
Calcium Compounds - chemistry
Electrons
Mass Spectrometry
Oxides - chemistry
Protons
Surface Properties
Temperature
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Zusammenfassung:The hydrogen anion (H-) and other anionic species (O-, OH-, e-) in the gas phase, emitted from the synthesized crystal surface of 12 CaO x 7 Al2O3-H- (C12A7-H-), have been observed. The emission intensity of all the anionic species strongly depends on the sample surface temperature and the extraction field. H- has the highest emission branch ratio, and the extraction field can reduce its apparent activation energy. H- emission current at a microA/cm2-level has been achieved, which is about 4 orders of magnitude higher than that obtained from the thermal desorption process of CaH2. The observed anions of H- and OH- are attributed to their migration from the C12A7-H- cages onto the surface [i.e., Y-(cages) --> Y-(surface) --> Y-(gas phase) (Y = H, OH)]. The weak O- and electron emission would both arise from the dissociation of O2-: O2-(surface) --> O-(surface) + e-(surface) --> O-(gas phase) + e-(space).
ISSN:1520-6106