润湿
涂层
化学
包膜尿素
化学工程
单宁酸
控制释放
尿素
超疏水涂料
肥料
材料科学
高分子化学
有机化学
纳米技术
复合材料
工程类
作者
Meizhou Sun,Jie Zheng,Xinghuan Liu,Tingting Yu,Hengfei Zhang,Wenda Yang,Rongjie Wang,Xin Jia
标识
DOI:10.1016/j.eurpolymj.2021.110902
摘要
The wettability of the coating used in controlled release fertilizers (CRFs) is a crucial parameter for the release behavior of nutrients. However, how to control the wettability of coating to tune nutrient release is a big challenge. Herein, the alkylamine-poly (tannic acid) (APTA) building blocks coatings with controlled wettability were prepared as coating materials for CRFs. Alkylamine (octadecylamine (ODA), hexadecylamine (HDA), dodecylamine (DDA), and hexylamine (HEA)) were applied for the modification of poly (tannic acid) (PTA) coating on the silicon wafer and urea surface. The wettability of coatings on silicon wafers were studied and nutrient release of APTA coated fertilizers were characterized in water and soil. The nitrogen nutrient and water vapor permeability coefficient of coatings were characterisized and the mathematical model for predicting the release of nutrients in soil. The alkyl chain length of alkylamine is demonstrated to play a crucial part in controlling the wettability. The rate of nutrient release increases in the order of ODA-PTA < HDA-PTA < DDA-PTA < HEA-PTA coated fertilizer. We envision that APTA building blocks with diverse wettability on urea surface could control the release rate of the nutritional content of fertilizer, which has potential application in the development of controlled-release fertilizers.
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