Abstract
Given the critical need for more efficient water and nutrient utilization to optimize crop yields, effective strategies in water and nutrient management are essential. The development of a self-irrigation and slow-release fertilizer hydrogel (SISRH) represents a promising approach. SISRH, a hydrogel with hygroscopic polymer chains interpenetrated by a thermoresponsive network, enhances plant growth through controlled yet self-sustained water and nutrient delivery. The hydrogel demonstrates diurnal functionality: it absorbs water vapor at night and releases it during the day due to a phase transition in the polymer, with incorporated calcium chloride (CaCl2) further improving hygroscopic properties and controlled nutrient release. SISRH facilitates a slow-release of nutrients and can achieve ∼40% water savings, significantly reducing the need for frequent irrigation and ensuring robust crop development. The integration of SISRH in soil offers a promising solution to meet the pressing needs of water scarcity and efficient nutrient uptake in modern sustainable agriculture.
Cite
CITATION STYLE
Park, J., Guan, W., Lei, C., & Yu, G. (2024). Self-Irrigation and Slow-Release Fertilizer Hydrogels for Sustainable Agriculture. ACS Materials Letters, 6(8), 3471–3477. https://doi.org/10.1021/acsmaterialslett.4c01120
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