Low-temperature catalyst activator: mechanism of dense carbon nanotube forest growth studied using synchrotron radiation

نویسندگان

  • Akito Takashima
  • Yudai Izumi
  • Eiji Ikenaga
  • Takuo Ohkochi
  • Masato Kotsugi
  • Tomohiro Matsushita
  • Takayuki Muro
  • Akio Kawabata
  • Tomo Murakami
  • Mizuhisa Nihei
  • Naoki Yokoyama
چکیده

The mechanism of the one-order-of-magnitude increase in the density of vertically aligned carbon nanotubes (CNTs) achieved by a recently developed thermal chemical vapor deposition process was studied using synchrotron radiation spectroscopic techniques. In the developed process, a Ti film is used as the underlayer for an Fe catalyst film. A characteristic point of this process is that C2H2 feeding for the catalyst starts at a low temperature of 450°C, whereas conventional feeding temperatures are ∼800°C. Photoemission spectroscopy using soft and hard X-rays revealed that the Ti underlayer reduced the initially oxidized Fe layer at 450°C. A photoemission intensity analysis also suggested that the oxidized Ti layer at 450°C behaved as a support for nanoparticle formation of the reduced Fe, which is required for dense CNT growth. In fact, a CNT growth experiment, where the catalyst chemical state was monitored in situ by X-ray absorption spectroscopy, showed that the reduced Fe yielded a CNT forest at 450°C. Contrarily, an Fe layer without the Ti underlayer did not yield such a CNT forest at 450°C. Photoemission electron microscopy showed that catalyst annealing at the conventional feeding temperature of 800°C caused excess catalyst agglomeration, which should lead to sparse CNTs. In conclusion, in the developed growth process, the low-temperature catalyst activation by the Ti underlayer before the excess Fe agglomeration realised the CNT densification.

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عنوان ژورنال:

دوره 1  شماره 

صفحات  -

تاریخ انتشار 2014