China
Changchun University of Science and Technology
Mn4+, Fluoride phosphors, Organic-inorganic hybrid, Water resistance, thermal stability
Mn4+, Fluoride phosphors, Organic-inorganic hybrid, Water resistance, Thermal stability
solar vapor generation, solar absorbers, photothermal conversion, electrospinning, Janus nanofibers
solar vapor generation, solar absorbers, photothermal conversion, Electrospinning, Janus nanofibers
Photocatalyst, 3D hierarchical porous structure, S-scheme heterojunction, Oxygen vacancy, Sulfur doping
Na5Gd(MoO4)4, Energy transfer, w-LEDs, plant lighting, anti-counterfeiting
Mn4+, Fluoride phosphor, Charge-compensation, Luminescent properties
Ni-rich layered cathode materials, Glycerin-assisted, Morphology design strategy, Structure stability
Eu3+, Sm3+, phosphor, WLEDs, optical thermometry
Phosphors, LED, Anti-counterfeiting
Ni-rich layered cathode materials, Hollow multi-shell structure, Co3O4 templates, Cyclic stability
BaGdGaO4, health lighting, plant lighting, multimodal anti-counterfeiting
UVA, narrowband, Ca3Ga2O6: Bi3+, plant lighting
Solar water evaporation, photocatalysis, Photothermal materials, Electrospinning
(Ca8ZnY(PO4)7:Dy/Sm warm light LED energy transfer Health lighting Optical anti-counterfeiting
White LED, Anti-counterfeiting, Plant Lighting, Energy transmission, Dy, Tb, Eu, Healthy Lighting
energy transfer, phosphor, LED, Dy3+, Sm3+
photocatalyst, 3D hierarchical porous structure, S-scheme heterojunction, Oxygen vacancy, Sulfur doping
blue phosphor, Sr3LiSbO6: Bi3+, thermal stability, anti-counterfeiting