Synthesis of silver (Ag) nano/micro-particles via green process using Andrographis paniculata leaf extract as a bio-reducing agent

Achmad Chafidz, S. Rusdi, Imam Nurrahman, Agam Duma, Kalista Wibowo, Adi Kusmayadi, Tri Hartanto
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Abstract

In this work silver nano/micro-particles have been synthesized using sambiloto (Andrographis paniculata) plant extract as a bio-reducing agent. The effects of different plant extract concentrations, AgNO3 precursor concentrations, and reaction time on the synthesized silver nano/micro-particles were investigated. The silver nano/micro-particles samples were then analyzed using UV-Vis spectrophotometer (UV-Vis), X-Ray Diffractometer (XRD), Field Emission Scanning Electron Microscopy (FESEM), Particle Size Analyzer (PSA), and Fourier Transform Infra-Red (FTIR) spectroscopy. The UV-Vis absorbance spectrum of the colloid silver nano/micro-particles exhibited that all samples had absorbance peaks at a wavelength around 450 nm, confirming the formation of silver nano/micro-particles. It was also found that the UV-Vis absorbance peak of the silver nano/micro-particles inversely increased with decreasing AgNO3 solution concentration.  Whereas, the higher the sambiloto extract concentration the higher the UV-Vis absorbance peaks. The UV-Vis absorbance peak increased with increasing synthesis time, suggesting that silver nano/micro-particles became more prominent. The UV-Vis absorbance peaks of the silver nano/micro-particles were about 0.0462, 0.0637, 0.0729, and 0.0936 at reaction time of 5, 10, 20, and 40 min, respectively. The XRD analysis result confirmed that the synthesized silver nano/micro-particles were in the form of nanocrystals with a face-centered cubic centered without any impurities. Additionally, the FESEM images showed that the silver nano/micro-particles had the primary particle size of 150-300 nm. There was the formation of some secondary particles with the size of about 0.7-1.5?m due to the agglomeration of primary particles. The particle size distribution analysis further confirmed the presence of primary and secondary particles. Meanwhile, the FTIR analysis confirmed the presence of four main peaks, linked to functional groups in the sambiloto extract and involved in the creation of silver nano/micro-particles.
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使用穿心莲叶提取物作为生物还原剂,通过绿色工艺合成银(Ag)纳米/微粒
本研究使用穿心莲植物提取物作为生物还原剂合成了银纳米/微颗粒。研究了不同植物提取物浓度、AgNO3 前体浓度和反应时间对合成银纳米/微颗粒的影响。然后使用紫外可见分光光度计(UV-Vis)、X 射线衍射仪(XRD)、场发射扫描电子显微镜(FESEM)、粒度分析仪(PSA)和傅立叶变换红外光谱(FTIR)对银纳米/微颗粒样品进行了分析。胶体纳米银/微粒的紫外可见吸收光谱显示,所有样品在 450 纳米左右的波长处都有吸收峰,证实了纳米银/微粒的形成。研究还发现,随着 AgNO3 溶液浓度的降低,纳米银/微颗粒的紫外可见吸光度峰值成反比增加。 而桑比洛托提取物浓度越高,紫外可见吸收峰越高。紫外可见吸收峰随合成时间的增加而增加,这表明纳米银/微颗粒变得更加突出。在反应时间为 5 分钟、10 分钟、20 分钟和 40 分钟时,纳米银/微颗粒的紫外可见吸收峰分别约为 0.0462、0.0637、0.0729 和 0.0936。XRD 分析结果证实,合成的银纳米/微粒呈面心立方的纳米晶体状,不含任何杂质。此外,FESEM 图像显示,银纳米/微颗粒的主要粒径为 150-300 nm。由于初级粒子的聚集,形成了一些尺寸约为 0.7-1.5?m 的次级粒子。粒度分布分析进一步证实了主要颗粒和次要颗粒的存在。同时,傅立叶变换红外光谱分析证实了四个主峰的存在,它们与桑比洛托提取物中的官能团有关,并参与了银纳米/微粒的生成。
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来源期刊
Communications in Science and Technology
Communications in Science and Technology Engineering-Engineering (all)
CiteScore
3.20
自引率
0.00%
发文量
13
审稿时长
24 weeks
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