High Purity Titanium Nanoparticles Nano Ti Powder CAS 7440-32-6, 99%

Nanoparticles of Titanium are used in coatings and resins. They can also be left on the surface without oxidation for extended periods. Nano-titanium surface treatment can be used to solve dispersion problems. Purity: 99%
Particle Size 80nm

About  Titanium Nanoparticles Nano Ti Powder  :

Physical properties:

The physical properties of nano-titanium powder are mainly affected by its particle size and morphology. Due to its nanoscale size, nano-titanium powder has a large specific surface area and a high surface energy. This gives the nano-titanium powder better thermal stability and creep resistance at high temperatures. In addition, the lattice constants and elastic modulus of nano-titanium powders also show different properties from those of conventional titanium powders. For example, the lattice constant and elastic modulus of nano-titanium powder increase with the decrease of particle size.

Chemical properties:

The chemical properties of nano titanium powder also differ from those of conventional-size titanium powder. Because nano titanium powder has a high specific surface area and vigorous surface activity, its chemical activity increases. In the oxidizing environment, nano-titanium powder shows higher oxidation resistance because the oxide layer it forms on the surface can effectively prevent further oxidation. In addition, nano-titanium powders offer higher catalytic activity in some chemical reactions, making them potentially valuable for catalysts.

Mechanical properties:

The mechanical properties of nano-titanium powder also changed. Due to the high specific surface area and vigorous surface activity of nano-titanium powder, its hardness, toughness and wear resistance have been improved. In addition, the elastic modulus of nano-titanium powder also shows different properties from that of conventional titanium powder. For example, the elastic modulus of nano-titanium powder increases with the decrease of particle size. These properties make nano titanium powder a potential high-performance material that can manufacture parts with high strength, wear resistance and high corrosion resistance.

Electrical properties:

The electrical properties of nanometer titanium powder also changed. Due to the small size and high surface activity of nano-titanium powder, its electrical conductivity, thermal conductivity and electron mobility have been improved. These properties make nano titanium powder have potential applications in electronic devices, such as manufacturing high-performance and high-sensitivity electronic devices.

Optical properties:

The optical properties of nanometer titanium powder also changed. Because of the small size and high surface activity of nano-titanium powder, its light absorption, scattering and reflection properties are changed. These properties give nano titanium powder potential applications in optical devices, such as high performance.

Stability:

Nano titanium powder has good chemical stability. It is not easy to react with other substances at room temperature and pressure so that it remains stable during storage and use. In addition, nano-titanium powder also has good corrosion resistance and can remain corrosion-free in many chemical environments.

Biocompatibility:

Nanometer titanium powder has good biocompatibility, which makes it widely used in biomedical engineering. It can be used to prepare biomaterials such as implants, drug carriers and bioimaging agents. Due to its small size effect and high specific surface area, nano titanium powder can be better compatible with biological tissues and reduce the occurrence of adverse reactions.

Technical Parameters of Titanium Nanoparticles Nano Ti powder:

Production Method of Titanium Nanoparticles Nano Ti Powder ：

Physical law:

Physical methods usually include mechanical crushing and gas evaporation. Mechanical pulverization is the process of pulverizing titanium powder into nano-sized titanium powder by using mechanical force. The advantage of this method is that the production process is simple, but the disadvantage is low production efficiency. It is challenging to obtain uniform nano titanium powder. The gas evaporation method is used by heating titanium wires or rods to melt and evaporate into nano-sized titanium particles. The advantage of this method is that high-purity nano titanium powder can be obtained, but the disadvantage is the high production cost. It is challenging to control the particle size and shape.

Chemical method:

The chemical method is commonly used to prepare nanomaterials, including the solution, gas, and solid phase methods. The solution method is most frequently used for producing nano-titanium powder. In this method, titanium salt solution is mixed with reducing agents (such as NaH, NH3, etc.), and the reduction reaction is carried out under specific temperature and pressure conditions to generate nano-sized titanium particles. Gas and solid phase methods are also commonly used to produce nano titanium powder. Still, they usually require high temperatures and high-pressure conditions, so the production cost is higher.

Physical and chemical method:

Physical chemistry is a method that combines the advantages of physical and chemical processes. It usually includes the sol-gel method, chemical vapor deposition method, etc. The sol-gel method is a standard method for producing nano titanium powder. In this method, titanium compounds are dissolved in organic solvents, reducing agents (such as NaH, NH3, etc.) are added, and the reduction reaction is carried out under specific temperature and pressure conditions to generate nano-sized titanium particles. Chemical vapor deposition is also a commonly used method to mix titanium compound vapor with hydrogen at high temperatures and conduct a reduction reaction under specific pressure conditions to generate nano-sized titanium particles.

Microemulsion method:

The microemulsion method is a new method to prepare nanomaterials; the basic principle is to use two kinds of insoluble liquid under the action of surfactant to form a uniform emulsion and then react in the emulsion to produce the required nanomaterials. For the production of nanometer titanium powder, the microemulsion method can prepare nanometer titanium powder with uniform particle size and controllable size in the water phase. The advantages of this method are that the reaction conditions are mild, easy to control, and high-purity nano-titanium powder can be obtained.

Laser-induced vapor deposition method:

Laser-induced vapor deposition (LASer-induced vapor deposition) is a new method for preparing nanomaterials. Its basic principle is to use a high-energy laser beam to irradiate the target in the gas phase so that the surface of the target is quickly melted, vaporized or sublimed, and plasma is generated simultaneously. The particles in the plasma are deposited on the substrate to form nanomaterials under the induction of the laser beam. For the production of nano titanium powder, high-quality nano titanium powder can be prepared in high-purity titanium vapor by laser-induced vapor deposition. The advantages of this method are high purity, small particle size and uniform distribution of nano titanium powder, but the disadvantages are high equipment cost and complex industrial production.

Applicationes of Titanium Nanoparticles Nano Ti Powder  :

Energy sector:

Nano-titanium powder has a wide range of applications in the energy field, mainly including batteries, fuel cells and solar cells. In storms, nano-titanium powder can be used as a harmful electrode material to improve battery energy density and charge and discharge efficiency. In solar cells, nano-titanium powder can be used as a light absorber to enhance solar energy's conversion efficiency and stability.

Medical field:

Nano-titanium powder also has a wide range of applications in the medical field, mainly including drug carriers, biological imaging and tumor therapy. Regarding biological imaging, nano-titanium powder can be used to develop medical imaging technologies such as X-rays, ultrasound and magnetic resonance. In treating cancer, nano titanium powder can be used as a carrier of radionuclides for radiation therapy and radionuclide imaging.

Environmental protection:

Nano-titanium powder also has essential applications in environmental protection, mainly including water treatment, air purifiers and soil remediation. In terms of water treatment, nano titanium powder can be used for water purification, disinfection and deodorization. In terms of air purifiers, nano-titanium powder can be used for the adsorption and decompose harmful substances in the air. In terms of soil remediation, nano-titanium powder can be used for the adsorption and fixation of heavy metals in soil, reducing the risk of soil pollution.

Other areas:

Nano-titanium powder can also be used in other fields, including electronic and optical catalysts. In the area of catalysts, nano-titanium powder can be used as the active component of catalysts to accelerate the rate and selectivity of chemical reactions. In electronic devices, nano-titanium powder can manufacture high-efficiency and high-sensitivity electronic devices. In optical devices, nano-titanium powder can manufacture optical devices with high performance, high transmittance and anti-reflection.

Aerospace field:

Nano titanium powder is also widely used in aerospace because of its excellent physical and chemical properties. For example, it can be used to manufacture high-performance aero-engine components to improve the performance and stability of aircraft. In addition, nano-titanium powder can also be used to manufacture lightweight, high-strength aerospace structural parts, such as aircraft fuselages, satellites and so on. These structural parts need excellent strength, toughness and light characteristics, and applying nano titanium powder can meet these requirements.

Electronic technology field:

In electronic technology, nano titanium powder has excellent electrical conductivity and high-temperature stability. Therefore, it can manufacture highly efficient and stable electronic components and circuit boards. For example, nano-titanium powder can be used as electrode material for electronic devices to improve the performance and stability of electronic components. In addition, nano-titanium powder can also be used to manufacture high-sensitivity sensors and photodetectors. These devices need to have the characteristics of high efficiency, high stability and miniaturization, and the application of nano titanium powder can meet these requirements.

Titanium Nanoparticles Nano Ti Pulp Storage:
Weakened nano Ti powder will cause a damp reunion which can adversely affect its dispersion performance. Ti Nanoparticles shouldn't be exposed to stress.

Transporting Titanium Nanoparticles Nano Ti powder:
There are many options for packing, which all depend on the quantity of titanium nanoparticles.
Titanium nanoparticles packing: You can vacuum pack 1kg per bag, 25kg/barrel or according to your requirements.
Shipment of titanium nanoparticles Shipments could be made by air or by sea.

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