Titanium oxide AB-nanofiber

Product Name

^{Name:Titanium oxide AB-nanofiber}

Product Overview

^{Titanium oxide nanofibers have a nanofiber like structure, and their specific surface area is significantly increased compared to conventional bulk titanium oxide materials, providing more active sites for various physical adsorption, chemical reactions, etc.}

^{Fiber like structures have a certain aspect ratio and can form overlapping network structures or special orientation structures. Titanium dioxide is an acidic amphoteric oxide with extremely stable chemical properties. It hardly reacts with other elements and compounds at room temperature and is insoluble in water, fatty acids, other organic acids, and weak inorganic acids. It is slightly soluble in alkali and hot nitric acid. But under long-term boiling conditions, it can completely dissolve in concentrated sulfuric acid and hydrofluoric acid, producing titanium sulfate or titanium oxysulfate and fluorotitanate, respectively. It has photochemical activity, suspended in certain organic media, and can undergo continuous redox reactions under the action of light.}

^{Technical Parameter}

^{Purity: 99%}

^{Width: 100-200 nm}

^{Length: 5-20 um}

^{Specific surface area: 15-30 m2/g}

^{Shape: White powder}

^{Product Features}

^{Excellent catalytic performance: Titanium oxide nanofibers exhibit excellent catalytic performance in organic catalytic reactions, environmental pollution control, and other fields. Its high specific surface area and abundant active sites enable more thorough contact between the catalyst and reactants, thereby improving catalytic efficiency.}

^{Photocatalytic performance: Titanium oxide nanofibers can generate electron hole pairs by absorbing ultraviolet light energy, thereby exerting photocatalytic effects. This performance makes titanium oxide nanofibers have broad application prospects in fields such as solar photovoltaic and environmental purification.}

^{Self cleaning properties: Titanium oxide nanofibers have self-cleaning properties and can decompose organic pollutants, bacteria, viruses, etc. through photocatalysis. This performance makes titanium oxide nanofibers have potential application value in fields such as building surfaces, clothing, and automation equipment.}

^{Application Fields}

^{In the field of environmental protection, titanium oxide nanofibers have a wide range of applications in areas such as air purification and water treatment. Its excellent catalytic and photocatalytic performance enables it to effectively degrade organic pollutants and kill harmful substances such as bacteria and viruses.}

^{Energy field: Titanium oxide nanofibers can be used in fields such as solar cells, hydrogen energy, fuel cells, etc. Its photoelectric conversion performance and catalytic performance enable it to be used as a photoelectric conversion material and catalyst, improving energy conversion efficiency.}

^{In the field of optoelectronics, titanium oxide nanofibers have potential application value in dye-sensitized solar cells, photocatalytic reactions, and other areas. Its high specific surface area and abundant active sites enable it to be used as a photoelectrode material, improving the photoelectric conversion efficiency.}

^{In the field of flexible electronics, the excellent flexibility and conductivity of titanium oxide nanofiber membranes enable them to be used as components of flexible electronic devices, leading to the development of more portable and intelligent devices. For example, a flexible wearable intelligent monitoring system can be developed to monitor human tremors, pulse, breathing, gestures, and movement posture in real-time.}

^{Related Information}

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

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