Synthesis and application of super absorbent polymers synthesized with ammonia solution and diatomaceous earth with low toxic residues

Xian chen, Yanjie Situ, Cailan Huang, Yifan Yang, Zongwen Liao, Xiaoyun Mao
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Abstract

Water-soluble harmful components that remained in SAPs pose potential risks to crop growth, resulting in decreased seed germination rate, reduced yield, and inhibited root system growth. These factors restrict its widespread use in agriculture and forestry. In this study, a new type of super absorbent polymers (AD-SAP) with low residual acrylic acid and sodium ions was synthesized by using ammonia solution instead of strong alkali sodium hydroxide for neutralization and adding modified diatomaceous earth to improve the grafting efficiency. The prepared samples were characterized by Fourier transform infrared spectroscopy (FTIR), X-ray diffraction (XRD), and energy-dispersive X-ray spectroscopy (EDS), and the influence of the dosage of acrylic acid and ammonia solution used for preparation on the residual content of water-soluble harmful components in AD-SAPs was investigated. When 28% of acrylic acid, 24% of ammonia solution, and 5% of diatomaceous earth were used for synthesis, the residual acrylic acid content in AD-SAP was 0.03%, and the sodium ion content was reduced to 0.12 g/kg, which is much lower than the three commercially available SAPs. However, its water-absorption capacity has not decreased and its salt resistance has improved. The water absorption ratio of AD-SAP is 578g/g, and the salt-absorption ratio is 87 g/g. Pot experiments showed that AD-SAP eliminated the adverse effects of commercial SAPs on crop growth. The research provided technical support for the production of SAPs, and offer scientific guidance for how to mitigate the adverse effects of SAPs on crop growth.
氨溶液与低残留硅藻土合成高吸水性聚合物的合成及应用
可溶性有害成分残留在SAPs中,对作物生长有潜在的风险,导致种子发芽率降低,产量降低,根系生长受到抑制。这些因素限制了其在农业和林业中的广泛应用。本研究以氨水代替强碱氢氧化钠进行中和,加入改性硅藻土提高接枝效率,合成了一种丙烯酸和钠离子残留量低的新型高吸水性聚合物AD-SAP。采用傅里叶红外光谱(FTIR)、x射线衍射(XRD)和能量色散x射线能谱(EDS)对制备的样品进行了表征,考察了丙烯酸和氨水用量对AD-SAPs中水溶性有害成分残留量的影响。当丙烯酸用量为28%、氨水用量为24%、硅藻土用量为5%时,AD-SAP中残留丙烯酸含量为0.03%,钠离子含量降至0.12 g/kg,远低于市售的三种sap。但其吸水性能没有下降,耐盐性能有所提高。AD-SAP的吸水率为578g/g,吸盐率为87 g/g。盆栽试验表明,AD-SAP消除了商业sap对作物生长的不利影响。该研究为SAPs的生产提供了技术支持,并为如何减轻SAPs对作物生长的不利影响提供了科学指导。
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