To provide a hydrogen storing material having high hydrogen storage capacity and also to provide an easy low-cost manufacturing method.
The hydrogen storing material having high capacity is provided. It has a mesopore chanel and nanopore chanels of a fractal network connected with it in a micropore structure, both two kinds of channels are connected with micropores, and metal particles are formed in the mesopore chanel, the nanopore channels, and the microchanels connected with those. The mesopore chanel connected with the micropores and the nanopore chanels of the fractal network are formed by utilizing oxidation reaction with the micropore structure. A carrier of metal particle sediment is provided which allows hydrogen molecules to be dissociated into atoms by these two kinds of chanels and the micropore connected with them.
YO MEISHO
TZENG YI-REN
WANG CHENG-YU
WU HSIU-CHU
CHUNG TSUI-YUN
CHIEN CHUN-CHING
LIN LI-FU
| JPH0822721B2 | 1996-03-06 | |||
| JP2006056750A | 2006-03-02 |
Hideo Sugiyama
Koichi Yuda
Uozumi Takahiro
Naohiko Teshima
Mitsuo Shiraishi
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