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One-Step Design of a Water-Resistant Green-to-Red Phosphor for Horticultural Sunlight Conversion

Xiaofang Wang, Jingbo Ke, Yufei Wang, Yanping Liang, Jiali He, Zirong Song, Shixun Lian, Zhongxian Qiu

2021ACS Agricultural Science & Technology17 citationsDOI

Abstract

As a universal sunlight-conversion agent for agricultural shed films, the green-to-red phosphor CaS:Eu2+ suffers greatly from its poor moisture resistance. Unlike the conventional surface modifications upon application of postprocessing, this work proposes a one-step, two-additive strategy for synthesizing the CaS:Eu2+,CaBr2,CaF2 composite phosphor. For the first time, we realize remarkable improvements in both the chemical stability and the luminescence intensity of a CaS:Eu2+-based material synchronously. The dual halide-modified composite phosphor maintains a stable phase composition against moist air and water immersion. The red emission of the as-obtained CaS:Eu2+,CaBr2,CaF2 phosphor becomes 3 times as intense as that of nonmodified CaS:Eu2+. Moreover, the polymer film fabricated with the modified phosphor presents good weather resistance and brilliant light-conversion performance. Therefore, this one-step method gives the CaS:Eu2+,CaBr2,CaF2 phosphor a great advantage as a long life light-conversion material for agricultural shed films.

Topics & Concepts

PhosphorMaterials scienceSunlightWater resistanceComposite numberOptoelectronicsComposite materialOpticsPhysicsLuminescence Properties of Advanced MaterialsAdvanced Photocatalysis TechniquesAmmonia Synthesis and Nitrogen Reduction
One-Step Design of a Water-Resistant Green-to-Red Phosphor for Horticultural Sunlight Conversion | Litcius