Synthesis and Characteristics of Valeric Acid-Zinc Layered Hydroxide Intercalation Material for Insect Pheromone Controlled Release Formulation

R. Ahmad, M. Hussein, S. H. Sarijo, W. Kadir, T. Y. Hin
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引用次数: 8

Abstract

A new intercalation compound of insect pheromone, valeric acid (VA), based on zinc layered hydroxide (ZLH) as host release material, was successfully prepared through coprecipitation method. The as-produced organic-inorganic nanolayered material, valerate nanohybrid, VAN, shows the formation of a new peak at lower 2θ angle with basal spacing of 19.8 A with no ZnO reflections, which indicate that the intercalation of anion between the inorganic ZLH interlamellae was accomplished. The elemental, FTIR, and ATR analyses of the nanohybrid supported the fact that the intercalation with the percentage anion loading was calculated to be 23.0% (w/w). The thermal stability property of the resulting nanohybrid was enhanced compared to the unbound anion. Field emission scanning electron micrograph of the ZnO has a nonuniform granular structure but transforms into flake-like structure with various sizes after the intercalation process. Release kinetics of anion from the interlayer of intercalated compound exhibited a slow release behavior governed by the pseudo-second-order kinetic model at different pHs of aqueous media. The valerate anion was released from VAN with the highest release rate at pH 4. These findings provide the basis to further development of controlled release formulation for insect pheromone based on ZLH intercalation.
昆虫信息素控释剂中戊酸-锌层状氢氧化物插层材料的合成及性能研究
以层状氢氧化锌(ZLH)为寄主释放材料,采用共沉淀法成功制备了一种新的昆虫信息素插层化合物——戊酸(VA)。制备的有机-无机纳米层材料valerate nanohybrid, VAN在2θ角下形成了一个基底间距为19.8 a的新峰,没有ZnO反射,这表明在无机ZLH层间完成了阴离子的插层。元素、FTIR和ATR分析支持这样一个事实,即负离子负载的插层率为23.0% (w/w)。与未结合的阴离子相比,所得到的纳米杂化物的热稳定性得到了增强。ZnO在场发射扫描电镜下具有不均匀的粒状结构,经过插层处理后转变为大小不一的片状结构。在不同ph的水介质中,阴离子从插层化合物的释放动力学表现为准二级动力学模型控制的缓释行为。在pH为4时,戊酸盐阴离子从VAN中释放出来,释放率最高。研究结果为进一步开发基于ZLH插层的昆虫信息素控释制剂提供了依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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