The present disclosure relates to a UV- and visible-light photocatalytic titanium dioxide composite material. In particular, the disclosure relates to a 5 photocatalytic titanium oxide composite material for the decomposition of airborne pollutants.

The present invention provides a method for producing an oxide catalyst containing antimony, comprising

a step (A) of obtaining the oxide catalyst using antimony particles containing a diantimony trioxide as a source of the antimony,

wherein an abundance of a pentavalent antimony in a surface layer of the antimony particle to be measured in XPS analysis is less than 70 atom %, and

the antimony particle has an average particle size of 1.2 m or less.

Shaped porous carbon products and processes for preparing these products are provided. The shaped porous carbon products can be used, for example, as catalyst supports and adsorbents. Catalyst compositions including these shaped porous carbon products, processes of preparing the catalyst compositions, and various processes of using the shaped porous carbon products and catalyst compositions are also provided.

Provided is a method for converting waste plastic pyrolysis oil into light olefins with a high yield. The method includes: (1) inputting waste plastic pyrolysis oil into a reactor; (2) allowing the waste plastic pyrolysis oil to react in the reactor in the presence of a catalytic cracking catalyst containing a first metal and a second metal to form a product; and (3) recovering light olefins by separating the catalytic cracking catalyst and oil from the product obtained in step (2).

Provided is a method for converting waste plastic pyrolysis oil into light olefins with a high yield. The method includes: (1) inputting waste plastic pyrolysis oil into a reactor; (2) allowing the waste plastic pyrolysis oil to react in the reactor in the presence of a catalytic cracking catalyst containing a first metal and a second metal to form a product; and (3) recovering light olefins by separating the catalytic cracking catalyst and oil from the product obtained in step (2).

The invention discloses a composite photocatalyst of clay based bismuth phosphate homojunctions, preparation method and application thereof. The preparation method includes the following steps: S1, preparing a bismuth nitrate solution, sodium dihydrogen phosphate solution, and rectorite suspension; S2, adding bismuth nitrate solution into sodium dihydrogen phosphate solution, stirring thoroughly, then adding rectorite suspension for hydrothermal reaction, and finally separation, washing, and drying. This invention loads BiPO.sub.4 onto the rectorite while preparing BiPO.sub.4 through a one-step hydrothermal method. Due to the addition of rectorite, it can induce the BiPO.sub.4 heterophase homojunction structure composed of hexagonal phase and monazite monoclinic phase, improving the separation ability of electrons and holes. In addition, composite rectorite can enhance the adsorption performance of the catalyst, reduce the recombination rate of electron-hole pairs, and significantly improve the photocatalytic performance of the catalyst through the synergistic effect of the two aspects.

The invention discloses a composite photocatalyst of clay based bismuth phosphate homojunctions, preparation method and application thereof. The preparation method includes the following steps: S1, preparing a bismuth nitrate solution, sodium dihydrogen phosphate solution, and rectorite suspension; S2, adding bismuth nitrate solution into sodium dihydrogen phosphate solution, stirring thoroughly, then adding rectorite suspension for hydrothermal reaction, and finally separation, washing, and drying. This invention loads BiPO.sub.4 onto the rectorite while preparing BiPO.sub.4 through a one-step hydrothermal method. Due to the addition of rectorite, it can induce the BiPO.sub.4 heterophase homojunction structure composed of hexagonal phase and monazite monoclinic phase, improving the separation ability of electrons and holes. In addition, composite rectorite can enhance the adsorption performance of the catalyst, reduce the recombination rate of electron-hole pairs, and significantly improve the photocatalytic performance of the catalyst through the synergistic effect of the two aspects.

A powder coating composition is described. The composition includes an inorganic bismuth-containing compound or a mixture of inorganic and organic bismuth-containing compounds. The powder composition demonstrates a high degree of cross-linking in the coating and produces a cured coating with optimal crosslinking and corrosion resistance.

A powder coating composition is described. The composition includes an inorganic bismuth-containing compound or a mixture of inorganic and organic bismuth-containing compounds. The powder composition demonstrates a high degree of cross-linking in the coating and produces a cured coating with optimal crosslinking and corrosion resistance.

A mixed metal oxide Selective Oxygen Carrier (SOC) suitable for the selective oxidation of hydrogen comprising bismuth oxides, rare earth oxides, and a dopant of Ti, Zr, and Hf and is characterizable by a high level of oxygen carrying capacity, selectivity and stability. The SOC can be synthesized using a sol gel procedure, co-precipitating salts, or the incipient wetness method. The invention includes a process of dehydrogenating a paraffin over a SOC. A SOC can also be used to catalytically crack hydrocarbons.