Monthly Archives - 五月 2023

Application of nanometer molybdenum disulfide

Many researchers have performed typical catalytic hydrogenation of 1-methylnaphthalene to 1-methyltetrahydronaphthalene and 5-methylhydronaphthalene. The results show that the hydrogenation conversion rate of nanometer molybdenum disulfide is 5 times that of micron molybdenum disulfide at 350℃ using the same amount of micron (about 26 μm) molybdenum disulfide and 40nm molybdenum disulfide catalyst. The ratio of 1- methyltetraphthalene and 5- methyltetraphthalene in hydrogenated products was almost constant. The catalytic hydrogenation of naphthalene methylbenzyl showed that the activity of nano-molybdenum disulfide on [...]

Production process of copper pyrophosphate

Sodium pyrophosphate reacts with copper sulfate or copper chloride to produce copper pyrophosphate. Na4P207+2CuS04 Cu2P207+2Na2S04 Na4P207+ 2cucL2-Cu2p207 +4NaCl Sodium pyrophosphate (95%) 950 Copper sulfate (93%) 1450 Using industrial hydrated disodium phosphate as raw material, it is heated and dehydrated at low temperature, and then slowly heated to about 100℃, so that it removes all the crystalline water and becomes anhydrous salt. Ground anhydrous salt, and then put it in a high temperature furnace, hot at 200-300℃, to produce sodium pyrophosphate. The reaction is complete when [...]

Test method for alumina content in aluminium metaphosphate

Aluminum metaphosphate is a kind of raw material for optical glass, its purity directly affects the optical properties of optical glass. At present, there is no national standard test method for the purity detection of aluminum metaphosphate. The purity of aluminum metaphosphate in the industry is measured by testing the content of phosphorus pentoxide or alumina in aluminum metaphosphate, and then converted into the purity of aluminum metaphosphate by a certain coefficient. At present, the determination of phosphorus pentoxide content [...]

Membrane electrode catalyst carrier Ti4O7 for fuel cell reactor

(1) Preparation of Ti4O7: As a catalyst support, it needs to have a large specific surface area, and the difficulty lies in this. The specific surface area of Ti4O7 synthesized by single step method is very small. The specific surface area of multistep synthesis was 140m2/g. (2) Catalyst performance: The activity and durability of Ti4O7 supported catalyst is better than that of Pt/C catalyst. After the formation of Ru-Pt core-shell structure, the Ti4O7 supported catalyst not only has CO resistance, [...]