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Mesoporous ZnAl2Si10O24 nanofertilizers enable high yield of Oryza sativa L.

Fizza Naseem, Yang Zhi, Muhammad Akhyar Farrukh, Fayyaz Hussain, Zongyou Yin

2020Scientific Reports46 citationsDOIOpen Access PDF

Abstract

Abstract Controllable release of nutrients in soil can overcome the environmental problems associated with conventional fertilizer. Here we synthesized mesoporous nanocomposite of Zinc aluminosilicate (ZnAl 2 Si 10 O 24 ) via co-precipitation method. Oryza sativa L. husk was used as source of silica for making the synthesis process green and economical. The nanocomposite was subsequently loaded with urea to achieve the demand of simultaneous and slow delivery of both zinc and urea. The structural characterization of nanocomposite was done by FTIR, XRD, TGA, BET, SEM/EDX and TEM. The release of urea and zinc was investigated with UV–Vis spectrophotometry and atomic absorption spectroscopy, respectively, up to 14 days. It was noted that urea holding capacity of mesoporous ZnAl 2 Si 10 O 24 nanocomposite over long period of time was increased as compared to bulk aluminosilicates, due to its high surface area (193.07 m 2 g −1 ) and small particle size of (64 nm). Urea release was found highest in first 24 h because of excess of adsorption on nanocomposite and least at 14th day. Fertilizer efficiency was checked on Oryza sativa L. in comparison with commercial urea and results showed significantly higher yield in case of urea loaded ZnAl 2 Si 10 O 24 nanocomposite.

Topics & Concepts

UreaMesoporous materialNanocompositeMaterials scienceAluminosilicateFourier transform infrared spectroscopyOryza sativaZincHuskAdsorptionFertilizerChemical engineeringNuclear chemistryYield (engineering)ChemistryCatalysisNanotechnologyOrganic chemistryComposite materialMetallurgyBotanyBiologyEngineeringBiochemistryGeneClay minerals and soil interactionsLayered Double Hydroxides Synthesis and ApplicationsPolymer-Based Agricultural Enhancements
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