Biosynthesis of Gold Nanoparticles Using Wuluh Star Fruit (Averrhoa bilimbi) for Chromium Analysis

Ria Kemala Dewi, M. L. Firdaus, Euis Nursa'adah
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Abstract

One of the heavy metals that can pollute waters is the heavy metal chromium (Cr). Chromium has many important roles in life. Chromium material is widely used by humans for various purposes, especially in the industrial world. However, the large number of uses of chromium in the industrial world and the waste it generates can have a negative impact on the environment and human health. One way to deal with chromium pollution is by analyzing the presence of chromium in waters. The aim of this research is to analyze the presence of chromium using a simple, effective, economical and accurate method, namely the biosynthesis of gold nanoparticles using samples of starfruit (Averrhoa bilimbi) as a bioreductor rich in ascorbic acid, with a colorimetric method, namely a method based on the aggregation of gold nanoparticles with ascorbic acid from starfruit, which causes a shift in plasmons and causes color changes that can be seen by the eye. Based on the analysis results, data was obtained that gold nanoparticles synthesized from the starfruit bioreductor can detect chromium with a concentration of 10 ppm with optimum conditions at pH 5, temperature 75oC, optimum incubation time of 5 minutes and gold nanoparticles are selective and sensitive for detecting chromium.
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利用 Wuluh star fruit(Averrhoa bilimbi)生物合成纳米金颗粒用于铬分析
重金属铬(Cr)是可能污染水域的重金属之一。铬在生活中有许多重要作用。铬材料被人类广泛用于各种用途,尤其是在工业领域。然而,铬在工业领域的大量使用及其产生的废物会对环境和人类健康造成负面影响。处理铬污染的方法之一是分析水体中铬的含量。本研究的目的是使用一种简单、有效、经济和准确的方法分析铬的存在,即使用杨桃(Averrhoa bilimbi)样本作为富含抗坏血酸的生物吸收剂,用比色法生物合成金纳米粒子,比色法是一种基于金纳米粒子与杨桃中的抗坏血酸聚集的方法,这种聚集会引起质子的移动,导致肉眼可见的颜色变化。根据分析结果得出的数据表明,在 pH 值为 5、温度为 75 摄氏度、最佳孵育时间为 5 分钟的最佳条件下,由杨桃生物诱导体合成的金纳米粒子可以检测浓度为 10 ppm 的铬,而且金纳米粒子对检测铬具有选择性和灵敏性。
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