Beijing, 100084
China
Tsinghua University
Keywords: Steel slag carbonation, Lime kiln flue gas, Reaction kinetics, Waste heat recovery, AHP-TOPSIS
BiOBr, CeCO3OH, heterojunction, Photocatalytic CO2 reduction, electron-rich groups
BiOBr, CeCO3OH, Heterojunction, Photocatalytic CO2 reduction, electron-rich groups
BiOBr nanosheets, Co3O4 nanoparticles, Z-scheme, CO2 photoreduction
Sewage sludge, bituminous coal, co-gasification, ReaxFF-MD
NiCoP, CdS, visible light, photocatalytic hydrogen production, co-catalyst
Pt-based catalysts, Hydrogen evolution reaction, P-doped carbon, Pore structure, collective metal active sites
Eu2O3, BiOBr, Heterojunction, photocatalytic CO2 reduction
PEMFC, effective thermal conductivity, GDB-MPL composite, X-ray computed tomography, layered model
iron-rich coal, ash fusion characteristics, coal blending, additives, regulation mechanism
Co3O4@carbon fiber, singlet oxygen, catalytic, PMS, phenolic pollutants, DFT
TiO2, MoS2, co-catalyst, photocatalytic, hydrogen precipitation
ZnIn2S4, NiTiO3, heterojunction, photocatalytic hydrogen evolution
textile waste, carbon fiber, degradation, highly efficient, refractory organic pollutants, C-O-Co
Z-type heterojunction, photocatalytic hydrogen production, NiO/Ag/CdS composite, Carrier separation
Dual-assisted catalysts, Synergy, Photogenerated carrier separation, Mitigation of photocorrosion
Zn0.5Cd0.5S, S vacancies, NiOOH, Synergistic effect, Photocatalytic H2 production