Direct Hydrothermal Processing of Long Titanate Nanofibers from Natural Rutile
Via the direct hydrothermal processing using natural rutile as a starting material, long titanate nanofibers (typically 10-500 μm in length and 20-50 nm in diameter) have been successfully synthesized in high yield Transmission electron microscopy (TEM), energy dispersive X-ray spectroscopy (EDS), e...
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| Veröffentlicht in: | Key engineering materials 2006-01, Vol.317-318, p.243-246, Article 243 |
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| creator | Suzuki, Yoshikazu Yoshikawa, Susumu Pavasupree, Sorapong Kawahata, Ryoji |
| description | Via the direct hydrothermal processing using natural rutile as a starting material, long
titanate nanofibers (typically 10-500 μm in length and 20-50 nm in diameter) have been successfully
synthesized in high yield Transmission electron microscopy (TEM), energy dispersive X-ray
spectroscopy (EDS), electron diffraction, and UV-Vis spectroscopy demonstrated that the
as-synthesized nanofibers presumably consisted of sodium hydrogen trititanate ((Na,H)2Ti3O7, e.g.,
Na0.4H1.6Ti3O7) including some hexatitanate-type defects ((Na,H)2Ti6O13). The direct hydrothermal
treatment for natural rutile will be a promising low-cost processing for 1-D nanomaterials, which can
act not only as the reaction step but also as the purification. |
| doi_str_mv | 10.4028/www.scientific.net/KEM.317-318.243 |
| format | Article |
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titanate nanofibers (typically 10-500 μm in length and 20-50 nm in diameter) have been successfully
synthesized in high yield Transmission electron microscopy (TEM), energy dispersive X-ray
spectroscopy (EDS), electron diffraction, and UV-Vis spectroscopy demonstrated that the
as-synthesized nanofibers presumably consisted of sodium hydrogen trititanate ((Na,H)2Ti3O7, e.g.,
Na0.4H1.6Ti3O7) including some hexatitanate-type defects ((Na,H)2Ti6O13). The direct hydrothermal
treatment for natural rutile will be a promising low-cost processing for 1-D nanomaterials, which can
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titanate nanofibers (typically 10-500 μm in length and 20-50 nm in diameter) have been successfully
synthesized in high yield Transmission electron microscopy (TEM), energy dispersive X-ray
spectroscopy (EDS), electron diffraction, and UV-Vis spectroscopy demonstrated that the
as-synthesized nanofibers presumably consisted of sodium hydrogen trititanate ((Na,H)2Ti3O7, e.g.,
Na0.4H1.6Ti3O7) including some hexatitanate-type defects ((Na,H)2Ti6O13). The direct hydrothermal
treatment for natural rutile will be a promising low-cost processing for 1-D nanomaterials, which can
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titanate nanofibers (typically 10-500 μm in length and 20-50 nm in diameter) have been successfully
synthesized in high yield Transmission electron microscopy (TEM), energy dispersive X-ray
spectroscopy (EDS), electron diffraction, and UV-Vis spectroscopy demonstrated that the
as-synthesized nanofibers presumably consisted of sodium hydrogen trititanate ((Na,H)2Ti3O7, e.g.,
Na0.4H1.6Ti3O7) including some hexatitanate-type defects ((Na,H)2Ti6O13). The direct hydrothermal
treatment for natural rutile will be a promising low-cost processing for 1-D nanomaterials, which can
act not only as the reaction step but also as the purification.</abstract><pub>Trans Tech Publications Ltd</pub><doi>10.4028/www.scientific.net/KEM.317-318.243</doi><tpages>4</tpages></addata></record> |
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| title | Direct Hydrothermal Processing of Long Titanate Nanofibers from Natural Rutile |
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