Formation of TiO2</sub> nanotubes by thermal decomposition of poly(vinyl alcohol)-titanium alkoxide hybrid nanofibers

Koji Nakane; Naoki Shimada; Takashi Ogihara; Nobuo Ogata; Shinji Yamaguchi

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Formation of TiO2 nanotubes by thermal decomposition of poly(vinyl alcohol)-titanium alkoxide hybrid nanofibers

机译：聚乙烯醇-钛醇盐杂化纳米纤维的热分解形成TiO2 纳米管

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Anatase type TiO2 nanotubes were formed by calcination of poly(vinyl alcohol)-Ti alkoxide hybrid precursor nanofibers in air. The outer and inner diameters of the TiO2 nanotubes calcined at 500 °C for 5 h were ca. 440 nm and ca. 270 nm, respectively. The specific surface area of the TiO2 nanotubes was 38.8 m2/g, and the existence of mesopores (average pore diameter, 14.8 nm) on the nanotube wall was indicated by the nitrogen adsorption isotherm (?196 °C). The photocatalysis of the TiO2 nanotubes was superior to that of commercially available anatase type TiO2 nanoparticles.

机译：通过在空气中煅烧聚乙烯醇-钛醇盐杂化前驱体纳米纤维形成了锐钛矿型TiO2 纳米管。在500°C下煅烧5 h的TiO2 纳米管的外径和内径分别为。约440 nm分别为270 nm。 TiO2 纳米管的比表面积为38.8 m2 / g，并通过氮吸附等温线（？196°）表示纳米管壁上存在中孔（平均孔径为14.8 nm）。 C）。 TiO2 纳米管的光催化性能优于市售锐钛矿型TiO2 纳米颗粒。

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《Journal of Materials Science》 |2007年第11期|4031-4035|共5页
作者
Koji Nakane; Naoki Shimada; Takashi Ogihara; Nobuo Ogata; Shinji Yamaguchi;
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Department of Materials Science and Engineering Faculty of Engineering University of Fukui Bunkyo 3-9-1 Fukui 910-8507 Japan;

Department of Materials Science and Engineering Faculty of Engineering University of Fukui Bunkyo 3-9-1 Fukui 910-8507 Japan;

Department of Materials Science and Engineering Faculty of Engineering University of Fukui Bunkyo 3-9-1 Fukui 910-8507 Japan;

Department of Materials Science and Engineering Faculty of Engineering University of Fukui Bunkyo 3-9-1 Fukui 910-8507 Japan;

Department of Materials Science and Engineering Faculty of Engineering University of Fukui Bunkyo 3-9-1 Fukui 910-8507 Japan;

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1. Formation of TiO2 nanotubes by thermal decomposition of poly(vinyl alcohol)-titanium alkoxide hybrid nanofibers [J] . Nakane K, Shimada N, Ogihara T, Journal of Materials Science . 2007,第11期

机译：通过热分解聚乙烯醇-钛醇盐杂化纳米纤维形成TiO2纳米管
2. Formation of Refractory Carbide and Nitride Nanofibers by Thermal Decomposition of Poly(vinyl alcohol)-Titanium Lactate Hybrid Nanofibers [J] . Koji Nakane, Keisuke Nakanishi, Jae-Ho Kim, 繊維学会誌 . 2011,第12期

机译：聚乙烯醇-乳酸钛杂化纳米纤维的热分解形成难熔碳化物和氮化物纳米纤维
3. Formation of poly(vinyl alcohol)-titanium lactate hybrid nanofibers and properties of TiO2 nanofibers obtained by calcination of the hybrids [J] . Nakane K, Yasuda K, Ogihara T, Journal of Applied Polymer Science . 2007,第2期

机译：聚乙烯醇-乳酸钛杂化纳米纤维的形成及通过煅烧得到的TiO2纳米纤维的性能
4. Formation and Properties of Titanium Oxide Nanofibers Obtained from Poly (vinyl alcohol)-Titanium Compound Hybrid Nanofibers [C] . Koji Nakane, Takashi Ogihara, Nobuo Ogata, 第35届纺织科学国际学术研讨会论文集 . 2006

机译：聚乙烯醇-钛化合物杂化纳米纤维制得的氧化钛纳米纤维的形成与性能
5. Conducting polymer blends: Polypyrrole and polythiophene blends with polystyrene, polycarbonate resin, poly(vinyl alcohol) and poly(vinyl methyl ketone). [D] . Wang, Hsing-Lin. 1992

机译：导电聚合物共混物：聚吡咯和聚噻吩与聚苯乙烯，聚碳酸酯树脂，聚乙烯醇和聚乙烯甲基酮的共混物。
6. Thermal conductivity enhancement in electrospun poly(vinyl alcohol) and poly(vinyl alcohol)/cellulose nanocrystal composite nanofibers [O] . Yeongcheol Park, Myungil You, Jihoon Shin, -1

机译：静电纺丝聚乙烯醇和聚乙烯醇/纤维素纳米晶体复合纳米纤维的导热系数提高
7. Highly thermally resistant hydrophobic poly(vinyl alcohol)-silica hybrid nanofibers [O] . Ugur Hulusi, Burcu Oktay, Atilla Gungor, 2018

机译：高热耐疏水聚（乙烯醇）-Silica杂交纳米纤维

Formation of TiO2 nanotubes by thermal decomposition of poly(vinyl alcohol)-titanium alkoxide hybrid nanofibers

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