Baibiao Huang

TL;DR: Researchers develop a Ni/CaTiO3 catalyst with strong metal-support interaction, achieving 87.77% CO2 conversion and 3.12 mol gNi−1 h−1 CH4 generation rate under ambient pressure, through in situ doping and vacancy regulation.

TL;DR: In this paper, the direct current reactive magnetron sputtering of a metal copper target in oxygen-argon mixed atmospheres to produce thin films of crystalline copper oxides was described, and the sputtering pressure, sputtering power and oxygen flow rate were established in order to control the structures and properties of Cu2O films.

TL;DR: In this paper , the surface modification of dual cocatalysts on photocatalyst is believed to effectively promote the separation of photogenerated carriers in the CO2 reduction reaction.

TL;DR: In this paper, green-emitting arrayed ZnO nanorods were fabricated on the nanoparticulate film by simply refiring the film in the mixture of nitrogen and hydrogen, where the annealing temperature in the air should be above 450 ◦C, flow rate of the hydrogen should be higher than 10 mL/min, the re-firing temperature must be controlled in the range from 450 to 550 ◦ C, and the hydrogen must be continually supplied in the process of cooling.