Titanium oxide B-nanotube

Product Name

^{Name:Titanium oxide B-nanotube}

Product Overview

^{Titanium dioxide B phase belongs to the monoclinic crystal system, which is different from the common rutile phase, rutile phase, and perovskite phase. It has a unique open structure with parallel transport channels in the [010] crystal direction, which makes it excellent in ion transport. According to density functional theory calculations, the theoretical capacity of titanium dioxide B-phase reaches 335 mAh/g, significantly higher than the 168 mAh/g of the other three common crystal forms. There are various methods for preparing titanium dioxide B-phase, and a typical method is to synthesize it through a hydrothermal reaction combined with a calcination step. One dimensional morphology enables materials to have a larger specific surface area, which is beneficial for the absorption of light energy and the improvement of catalytic efficiency in photocatalytic reactions. Meanwhile, the fiber morphology also facilitates dispersion and recovery in the reaction system.}

^{Technical Parameter}

^{Diameter: 8-10 nm}

^{Purity: 99%}

^{Length: 100-200 nm}

^{Specific surface area: 200-300 m2/g}

^{Product Features}

^{Efficient photocatalytic activity: B-phase titanium dioxide can exhibit efficient photocatalytic activity under illumination conditions, thanks to its unique crystal and electronic structure. The photocatalytic activity of B-phase titanium dioxide makes it widely applicable in fields such as environmental remediation and energy conversion.}

^{Light absorption range: B-phase titanium dioxide may have a narrower bandgap, which means it can absorb a wider range of wavelengths of light energy, thereby improving photocatalytic efficiency. However, the specific bandgap width value may vary depending on the preparation method and conditions.}

^{Good stability: B-phase titanium dioxide has good chemical and thermal stability, and can maintain its structural and performance stability in various environments. This stability enables B-phase titanium dioxide to maintain high catalytic activity and photoelectric conversion efficiency during long-term use.}

^{Application Fields}

^{Lithium ion battery: In lithium-ion batteries, titanium dioxide B-phase material as the negative electrode material can significantly improve the specific capacity and cycling stability of the battery. Its unique (101) exposed crystal structure provides more active sites for lithium, which is beneficial for ion binding and transport.}

^{Photocatalysis: Although there is relatively little research on the application of titanium dioxide B-phase in the field of photocatalysis, its unique open structure provides the possibility for improving photocatalytic performance. For example, by constructing a TiO2 (B)/rutile heterogeneous structure, the charge separation and transport efficiency of photocatalysts can be significantly improved.}

^{Other fields: Titanium dioxide B-phase may also demonstrate unique application potential in areas such as supercapacitors and sensors.}

^{Related Information}

^{Please e-mail for the detailed characterization data.}

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