Hydrogen Molecular Sieves TRPH5

Hydrogen molecular sieve TRPH5 is a synthetic material with a crystal structure and pore size similar to the 4A molecular sieve. The main feature of this material is that it has high selectivity and activity and can achieve efficient hydrogenation reactions under mild conditions.
The crystal structure of the molecular sieve TRPH5 is composed of silicate mineral crystals, in which the ratio of silicon to aluminum is 5:1. With a pore size of 5 angstroms, it is slightly larger than 4A molecular sieve, allowing larger molecules to pass through. Therefore, this material is suitable for hydrogenating larger molecules or groups, such as alkenes, alkynes, carbonyl compounds, etc.
Hydrogen molecular sieve TRPH5 has high selectivity and activity and can achieve high-efficiency hydrogenation under mild reaction conditions. It can react at lower temperatures and pressures with high conversion and good selectivity and obtain high-quality hydrogenated products. In addition, this material also has good durability and stability and can be used for a long time in industrial applications.

Applications of Hydrogen Molecular Sieves TRPH5:

Petrochemical: In the petrochemical industry, the hydrogen molecular sieve TRPH5 can be used as a catalyst for hydrocarbon cracking and hydrogenation reactions to achieve efficient hydrogenation cracking and upgrading heavy petroleum hydrocarbons. By using the hydrogen molecular sieve TRPH5, high-quality light oil products can be obtained at lower temperatures and pressures while reducing the generation of waste and harmful substances.

Pharmaceutical and food: The molecular sieve TRPH5 can prepare high-quality olefin drugs and food additives in the pharmaceutical and food industries. The substrate molecule's carbon-carbon double bond can be converted by catalyzing hydrogenation into a single bond to obtain the desired product. Hydrogen molecular sieve TRPH5 has high activity and selectivity, which can avoid side reactions and improve the purity and stability of the product.

Fine chemicals: In fine chemicals, hydrogen molecular sieve TRPH5 can produce high value-added fine chemicals. For example, the hydrogen molecular sieve TRPH5 can catalyze the reduction amination reaction to convert the aromatic nitro compound to the corresponding amine compound. These amines can be used as intermediates or active ingredients in fine chemicals such as pharmaceuticals, pesticides, and dyes.

Environmental governance: The Molecular Sieve TRPH5 is employed in environmental governance, for example, to remove toxic gasses and VOCs (volatile organic compounds) in the air. By catalyzing REDOX reactions, toxic VOCs can be converted into harmless substances, cleaning the air and protecting the environment. In addition, the hydrogen molecular sieve TRPH5 can also be used for the adsorption and removal of heavy metal ions in water treatment.

Other fields: Hydrogen molecular sieve TRPH5 can also be used in other fields, such as fuel cells, sensors, electronic materials, etc. For example, the hydrogen molecular sieve TRPH5 can be used to prepare high-purity hydrogen for use in fuel cells. It can also be used as a sensor material to detect the concentration of specific gases in the environment. It can also be used as an electronic material to prepare high-conductivity films.

Production Method of Hydrogen Molecular Sieves TRPH5:

Silica-aluminum exchange method: This method is prepared by the reaction of sodium silicate and aluminum hydroxide, and then specific additives, adjusting the pH value, temperature, and other parameters through crystallization, filtration, drying, and other steps. The product obtained by this method has certain purity and performance, but the production cost is high, and more additives are needed.

Synthesis method: The process is based on the reaction between salt silicate, sodium hydroxide, sodium aluminate, other ingredients, and other additives, adjusting the pH value and temperature and other parameters through crystallization, filtration, drying, and other steps prepared. The product obtained by this method has higher purity and performance, but the production cost is higher, and more additives are needed.

Natural mineral method: This method is prepared by purifying, crushing, high-temperature roasting, and raw mineral materials such as natural diatomite. The advantages of this method are that the raw materials are easy to obtain, the production cost is low, and the obtained products have the advantages of natural mineral structure. However, the purity and performance of the product are limited by the quality of raw materials, and it is not easy to get high-performance products.

Composite molecular sieve method: This method prepares a composite molecular sieve with specific structures and properties by reacting sodium silicaluminate and different additives. The product obtained by this method has better adsorption and ion exchange properties, but the production cost is high, and the technology is difficult.

Solid acid method: This method is relatively new for preparing hydrogen molecular sieve TRPH5. It is based on solid acid as a catalyst. The precursor containing a specific structure is synthesized in the liquid or gas phase, and the hydrogen molecular sieve TRPH5 is prepared. The benefits of this approach are that it causes mild reactions, simple operation, high purity of the product, and low production cost.

Packing & Shipping of Hydrogen Molecular Sieves TRPH5:

25kg/carton lined with PE bag;

55 gallon / sealed steel drum;

TRUNNANO can customize different packaging according to customer requirements.

Hydrogen Molecular Sieves TRPH5 supplier ：

Luoyang Tongrun Nano Technology Co. Ltd. (TRUNNANO) is a trusted global chemical material supplier & manufacturer with over 12 years of experience in providing super high-quality chemicals and Nanomaterials, including boride powder, nitride powder, graphite powder, sulfide powder, 3D printing powder, etc.

If you are looking for high-quality Hydrogen Molecular Sieves TRPH5, please feel free to contact us and send an inquiry. ([email protected])