In situ forming of PEG-NH2/dialdehyde starch Schiff-base hydrogels and their application in slow-release urea

聚乙二醇 尿素 PEG比率 自愈水凝胶 肿胀 的 席夫碱 化学 淀粉 高分子化学 控制释放 吸水率 核化学 氮气 化学工程 有机化学 材料科学 复合材料 纳米技术 经济 工程类 财务
作者
Wenli Zhang,Xiang Liao Sun,Qian Yang,Yuanyuan Guo,Yanjun Cui,Yongsheng Xiang,Bing Hu,Jia Wei,Peng Tu
出处
期刊:International Journal of Biological Macromolecules [Elsevier BV]
卷期号:256 (Pt 1): 128355-128355 被引量:20
标识
DOI:10.1016/j.ijbiomac.2023.128355
摘要

In this study, a biodegradable Schiff-base hydrogel urea, possessing substantial water retention and certain slow-release ability was designed and synthesized. Firstly, dialdehyde starch (DAS) and amine-terminated polyethylene glycol (PEG-(NH2)2) were synthesized using potato starch and polyethylene glycol. Then, a novel Schiff-base hydrogel (SH) was prepared through the in-situ reaction between the aldehyde group of DAS and the amino group of PEG-(NH2)2. Three SH based slow-release urea, designated as SHU1, SHU2, and SHU3 and distinguished by varying urea content, were obtained using SH as the substrate. Several characterizations and tests were conducted to determine the structure, thermal properties, morphology, swelling properties, sustainable use, water retention, and biodegradation properties of SH. Additionally, the slow-release behavior of SHU was studied. SEM results revealed that SH possessed a porous three-dimensional network structure, with a maximum water absorption capacity of 4440 % ± 6.23 %. Compared to pure urea, SHU exhibited better slow-release performance after 30 days of release in soil, with SHU1 having a residual nitrogen content of specifically 36.01 ± 0.57 % of the initial nitrogen content. A pot experiment with pakchoi substantiated the water retention and plant growth promotion properties of SHU. This study demonstrated a straightforward method for the preparation of starch-based Schiff-base hydrogels as fertilizer carriers.
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