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UV-to-red light converting films accelerate plant growth, could help improve global food supply issues

Por um escritor misterioso
Last updated 14 abril 2025
UV-to-red light converting films accelerate plant growth, could help improve global food supply issues
An interdisciplinary team from Hokkaido University
UV-to-red light converting films accelerate plant growth, could help improve global food supply issues
Passive daytime radiative cooling - Wikipedia
UV-to-red light converting films accelerate plant growth, could help improve global food supply issues
UV filters and high refractive index materials based on carboxymethyl cellulose sodium and CuO@ZnO core/shell nanoparticles
UV-to-red light converting films accelerate plant growth, could help improve global food supply issues
Light-converting material enhances plant growth
UV-to-red light converting films accelerate plant growth, could help improve global food supply issues
IJMS, Free Full-Text
UV-to-red light converting films accelerate plant growth, could help improve global food supply issues
UV-to-red light converting films accelerate plant growth, study shows - Future Farming
UV-to-red light converting films accelerate plant growth, could help improve global food supply issues
Development and application of photoconversion fluoropolymer films for greenhouses located at high or polar latitudes - ScienceDirect
UV-to-red light converting films accelerate plant growth, could help improve global food supply issues
Applied Sciences, Free Full-Text
UV-to-red light converting films accelerate plant growth, could help improve global food supply issues
UV-B light and its application potential to reduce disease and pest incidence in crops
UV-to-red light converting films accelerate plant growth, could help improve global food supply issues
Microbial applications for sustainable space exploration beyond low Earth orbit
UV-to-red light converting films accelerate plant growth, could help improve global food supply issues
Full article: A review on functional nanoarchitectonics nanocomposites based on octahedral metal atom clusters (Nb6, Mo6, Ta6, W6, Re6): inorganic 0D and 2D powders and films
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