纳米生物肥料的合成及其在农业生态系统中的应用

Preeti Bairwa, Nimish Kumar, Vijay Devra, K. Abd-Elsalam
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引用次数: 3

摘要

绿色化学和纳米生物技术在产生对环境、工业和消费者有利的新产品方面具有巨大的潜力。纳米形式的金属和纳米复合材料由于其独特的物理、化学和光学性质,比它们笨重的对应物更有效。绿色技术是一个快速发展的科学领域,近年来由于其众多应用而受到关注。不同的纳米颗粒尺寸、大小和生物活性将随着合成所用生物材料的变化而发展。本文综述了几种依赖不同植物成分和微生物生产纳米颗粒的绿色合成方法的现有认识。使用这些材料可以最大限度地降低合成成本,同时最大限度地减少危险化学品的使用,促进“生物合成”。为了有效地生产金属纳米颗粒,生物还原受到必需酶、蛋白质和生物分子丰度的影响。快速的生物合成再生使这种特性足以在一系列情况下使用。本文综述了纳米材料的生物合成及其在可持续农业中的应用前景。生物合成纳米肥料是一种革命性的新型肥料,是在纳米技术的帮助下开发出来的。这些肥料比传统的施肥方法有许多优点,可以用来增加作物产量,同时减少肥料对环境的影响。生物肥料是一种廉价的方法,可以提高植物的生长和产量,改善植物对养分的利用和土壤的健康。根据我们的调查,纳米技术在农业领域提供了一种尖端和环境友好的替代方案,呈现出广泛的前景。
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Nano-Biofertilizers Synthesis and Applications in Agroecosystems
Green chemistry and nanobiotechnology have great potential for generating new and significant products that are favorable to the environment, industry, and consumers. The nanoforms of metals and nanocomposites are more effective and efficient agents than their bulkier counterparts because of their distinctive physical, chemical, and optical properties. Green technology is a rapidly growing scientific field that has recently received attention due to its many applications. Different nanoparticle dimensions, sizes, and bioactivities will develop as a consequence of changes in the biomaterials employed for synthesis. The existing understanding of several green synthesis methods, that depend on different plant components and microorganisms for the production of nanoparticles, is summarized in the current review. Employing these materials minimizes synthesis costs while minimizing the use of hazardous chemicals and promoting “biosynthesis.” To produce metal nanoparticles efficiently, bio-reduction is influenced by the abundance of essential enzymes, proteins, and biomolecules. Rapid biosynthetic regeneration makes this characteristic sufficient for their employment in a range of situations. In this review, we explore the biosynthesis of nanomaterials and their potential in sustainable agriculture. Biosynthesized nanofertilizers, or bionanofertilizers, are a revolutionary new class of fertilizer that has been developed with the help of nanotechnology. These fertilizers offer many advantages over traditional fertilization methods and can be used to increase crop yields while reducing the environmental impact of fertilizers. Bionanofertilizer are an inexpensive way to increase plant growth and production, and to improve the use of nutrients by plants and the health of the soil. According to our survey, nanotechnology presents a wide range of prospects by offering a cutting-edge and environmentally friendly alternative in the agricultural sector.
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