Cheng‐Kun Tsai scite author profile

Titania nanotube aggregates with different porosities were prepared from hydrothermal treatment on commercial TiO 2 particles in NaOH followed by HCl washing. Pore structure analysis reflects that pores of smaller sizes are mainly contributed by the nanotubes while those of larger sizes are contributed by the interspace region of the aggregates. The hydrothermal treatment temperature, ranging within 110-150 °C, was shown to affect not only the extent of particle-to-sheet conversion, and thus the resulting structures of the nanotubes, but also the anatase-to-rutile transformation at high temperatures. The surface area of the nanotube aggregates increases with the treatment temperature to reach a maximum of ca. 400 m 2 /g at 130 °C, and then decreases with further increase of the temperature. In HCl washing, both the charge-removal rate and final state of the electrostatic charges on TiO 2 affect the rolling of TiO 2 sheets into nanotubes. This demonstrates that the nanotube structure can be regulated by adjusting the washing condition. Selective catalytic reduction of NO with NH 3 has been conducted to prove that the vast surface of the nanotube aggregates is accessible to the interacting molecules.

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Structural Feature and Catalytic Performance of Cu Species Distributed over TiO₂ Nanotubes

Nian

et al. 2006

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Copper oxide was deposited on tubular TiO2 via Cu2+ introduction into a titanate nanotube aggregate followed by calcination. The titanate has a layered structure allowing Cu intercalation and can readily transform into anatase TiO2 via calcination for condensation of the constituting layers. The activity of the tubular catalysts, with a Cu content of 2 wt %, in selective NO reduction with NH3 was compared with those of other 2 wt % Cu/TiO2 catalysts using TiO2 nanoparticles as the support. The Cu species supported on the nanotubes showed a higher activity than those supported on the nanoparticles. X-ray absorption near-edge structure (XANES) analysis showed that the Cu species on all the TiO2 supports are in the +2 state. Extended X-ray absorption fine structure (EXAFS) investigations of these catalysts reflected higher degrees of CuO dispersion and Cu2+ dissolution into the TiO2 lattice for the tubular Cu/TiO2 catalysts. Absence of CuO bulk detection by a temperature-programmed reduction analysis for the tubular catalysts confirmed the high CuO-dispersion feature of the tubular catalysts. The dissolution of Cu2+ to form a CuxTi1-xO2 type of solid solution was improved by using an in-situ ion-intercalation method for Cu deposition on the nanotubes. A fraction as high as 40% for Cu2+ dissolution was obtained for the tubular catalysts while only 20% was obtained for the particulate catalysts. The CuxTi1-xO2 species were considered one form of the active sites on the Cu/TiO2 catalysts.

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Structural Features of Nanotubes Synthesized from NaOH Treatment on TiO₂ with Different Post‐Treatments.

Tsai

Teng

2006

ChemInform

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Engineering strategies for simultaneous enhancement of C-phycocyanin production and CO2 fixation with Spirulina platensis

Chen

Kao

Tsai

et al. 2013

Bioresource Technology

126

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Nanotube Formation from a Sodium Titanate Powder via Low-Temperature Acid Treatment

Tsai

Teng

2008

Langmuir

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Through structure-monitoring of nanotube formation from a lamellar sodium titanate, the present work explicitly elucidated the structure of the titanate nanotubes obtained from hydrothermal treatment of TiO(2) with NaOH. A new compound of an orthorhombic lepidocrocite-type sodium titanate was synthesized from calcination of a solid-state mixture of TiO(2) anatase and Na(2)CO(3) powders followed by hydrothermal treatment with NaOH. By treating with acid at 25 degrees C for Na(+) exchange with H(3)O(+), the titanate compound exfoliated and then proceeded with sheet-scrolling to form nanotubes, which had a structure and morphology very close to those of the nanotubes derived from NaOH treatment on TiO(2). During the low-temperature acid treatment, the lepidocrocite-type titanate is transformed from the orthorhombic C-base-centered symmetry to the body-centered symmetry. This transformation, accompanied by a size-contraction of TiO(6)-octahedron units, was critical for the formation of nanotubes. The present work provides direct evidence, for the first time, that the widely reported TiO(2)-derived titanate nanotubes can be obtained at low temperatures by scrolling the sheets exfoliated from the orthorhombic lepidocrocite-type titanate.

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Cheng‐Kun Tsai

Regulation of the Physical Characteristics of Titania Nanotube Aggregates Synthesized from Hydrothermal Treatment

Structural Feature and Catalytic Performance of Cu Species Distributed over TiO₂ Nanotubes

Structural Features of Nanotubes Synthesized from NaOH Treatment on TiO₂ with Different Post‐Treatments.

Engineering strategies for simultaneous enhancement of C-phycocyanin production and CO2 fixation with Spirulina platensis

Nanotube Formation from a Sodium Titanate Powder via Low-Temperature Acid Treatment

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Cheng‐Kun Tsai

Regulation of the Physical Characteristics of Titania Nanotube Aggregates Synthesized from Hydrothermal Treatment

Structural Feature and Catalytic Performance of Cu Species Distributed over TiO2 Nanotubes

Structural Features of Nanotubes Synthesized from NaOH Treatment on TiO2 with Different Post‐Treatments.

Engineering strategies for simultaneous enhancement of C-phycocyanin production and CO2 fixation with Spirulina platensis

Nanotube Formation from a Sodium Titanate Powder via Low-Temperature Acid Treatment

Contact Info

Product

Resources

About

Structural Feature and Catalytic Performance of Cu Species Distributed over TiO₂ Nanotubes

Structural Features of Nanotubes Synthesized from NaOH Treatment on TiO₂ with Different Post‐Treatments.