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Description
Titanate NanofibersProduct Name Name: Titanate Nanofibers Product Overview There are various methods for preparing titanium dioxide nanofibers, and hydrothermal method is a commonly used method. By controlling reaction temperature, time, and mineralizer concentration, titanium dioxide nanofibers are synthesized in a hydrothermal environment. Technical Parameter Purity: 99% Width: 40 500 nm Length: 5 20 um Specific surface area: 20 30 m2 g Shape: White powder Product
Product Name
Name: Titanate Nanofibers
Product Overview
There are various methods for preparing titanium dioxide nanofibers, and hydrothermal method is a commonly used method. By controlling reaction temperature, time, and mineralizer concentration, titanium dioxide nanofibers are synthesized in a hydrothermal environment.
Technical Parameter
Purity: 99%
Width: 40-500 nm
Length: 5-20 um
Specific surface area: 20-30 m2/g
Shape: White powder
Product Features
Light energy conversion properties: capable of absorbing and converting light energy, providing potential applications for fields such as optoelectronic devices.
Photocatalytic/electrochemical properties: It exhibits excellent catalytic activity in photocatalytic and electrocatalytic reactions and can be used in the degradation of organic pollutants, water splitting for hydrogen production, and other fields.
Ionic exchange properties: It has ion exchange ability and can be used in fields such as ion exchange membranes and adsorption separation.
Mechanical performance: Through specific assembly methods such as circular structure, it can have excellent compressive strength and high porosity, providing new solutions for separation, catalysis and other fields.
Application Fields
Optoelectronic devices: utilizing their light energy conversion properties,; Theoretically, it can be used for the manufacturing of optoelectronic devices such as solar cells and photodetectors.
In the field of catalysis, it can theoretically be used for the degradation of organic pollutants, water splitting for hydrogen production, and other environmental and energy applications in photocatalysis and electrocatalytic reactions.
Adsorption separation: Utilizing its properties such as ion exchange and high porosity, it can be used for adsorption separation of ions in solution, capture of ultrafine nanoparticles, and other fields.
Sensors: They also have potential application value in fields such as chemical sensors.
Related Information
Please e-mail for the detailed characterization data.
E-mail:[email protected]
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