TiS2 nanotubes, which were synthesized through a chemical transport reaction, are very effective in reversible hydrogen absorption and desorption with the capacity of 2.5 wt %.
We report the synthesis of open-ended MoS2 nanotubes and their application as the catalyst for methanation of carbon monoxide with hydrogen. Because the catalysis of the methanation reaction occurs at relatively low temperatures, such nanotubes may provide new solutions toward harnessing the environmental load caused by CO emission.
There has been considerable recent interest in the synthesis and characterization of transition-metal disulfide nanotubes. The significant breakthrough in obtaining WS 2 and MoS 2
A low-temperature gas reaction was used to successfully synthesize TiS2 nanotubes with an outer diameter of approximately 20 nm, an inner diameter of approximately 10 nm, an interlayer spacing of approximately 0.57 nm, and an average length of 2-5 microm.
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