营养物掺杂羟基磷灰石:结构、合成与性能

IF 2.7 Q1 MATERIALS SCIENCE, CERAMICS
Mohamed M. Ammar, Sherif Ashraf, J. Baltrusaitis
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引用次数: 0

摘要

基于磷酸钙的复合无机粉末已经发现了大量的实际应用。特别令人感兴趣的是基于CaO-P2O5系统的多组分材料粉末和颗粒,作为植物主要和微量营养素的来源。新兴的策略是使用基于羟基磷灰石(HAP)的纳米肥料来输送磷和其他养分。微量营养素掺杂到HAP结构中,对获得这些磷酸钙的特定相组成提出了有趣的挑战。包括机械化学合成在内的各种技术已被用于制备掺杂HAP。机械化学合成是本综述中特别感兴趣的,因为它提供了一种相对简单,可扩展且成本效益高的磷酸钙粉末加工方法。该方法包括使用机械力来促进化学反应并制造纳米粉末。该技术已成功地应用于制备单独的HAP纳米颗粒,以及掺杂其他元素(如锌和镁)的HAP。通过机械化学合成开发的纳米肥料比传统肥料有几个优点。它们的纳米级尺寸允许养分的快速吸收和控制释放,从而提高植物对养分的吸收效率。此外,基于hap的纳米肥料的定制特性,如控制孔隙度和降解水平,有助于它们有效地提供植物营养。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nutrient-Doped Hydroxyapatite: Structure, Synthesis and Properties
Complex inorganic powders based on calcium phosphates have found a plethora of practical applications. Of particular interest are the CaO-P2O5 system-based multi-component material powders and granules as the source of major- and micronutrients for the plants. The emerging strategy is to use nano fertilizers based on hydroxyapatite (HAP) for phosphorus and other nutrient delivery. The doping of micronutrients into HAP structure presents an interesting challenge in obtaining specific phase compositions of these calcium phosphates. Various techniques, including mechanochemical synthesis, have been employed to fabricate doped HAP. Mechanochemical synthesis is of particular interest in this review since it presents a relatively simple, scalable, and cost-effective method of calcium phosphate powder processing. The method involves the use of mechanical force to promote chemical reactions and create nanometric powders. This technique has been successfully applied to produce HAP nanoparticles alone, and HAP doped with other elements, such as zinc and magnesium. Nanofertilizers developed through mechanochemical synthesis can offer several advantages over conventional fertilizers. Their nanoscale size allows for rapid absorption and controlled release of nutrients, which leads to improved nutrient uptake efficiency by plants. Furthermore, the tailored properties of HAP-based nano fertilizers, such as controlled porosity and degradation levels, contribute to their effectiveness in providing plant nutrition.
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来源期刊
CiteScore
3.00
自引率
7.10%
发文量
66
审稿时长
10 weeks
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