Sustainable green synthesis of Hedychium coronarium leaf extract-stabilized silver nanoparticles and their applications: colorimetric sensing of Sn2+ and Hg2+ and antifungal and antimicrobial properties†

IF 4.6 3区材料科学 Q2 CHEMISTRY, MULTIDISCIPLINARY

Nanoscale Advances Pub Date : 2024-08-22 DOI:10.1039/D4NA00443D

Sanjay Kumar Sahu, Anjana Kushwaha, Umakant Pradhan, Purusottam Majhi, Awadesh Kumar Shukla and Tanmay Kumar Ghorai

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Abstract

Hedychium coronarium (Hc) (commonly known as Gulbakawali) leaf extract was used for the stable and sustainable green synthesis of silver nanoparticles (Hc-AgNPs), which were biodegradable and non-toxic. Hedychium coronarium leaf extract was used as a reducing agent to stabilize the Hc-AgNPs by converting Ag⁺ to Ag⁰ without adding any capping agent. It demonstrated stability for up to six months, and no agglomeration was observed. The Hc-AgNPs were characterized using X-ray diffraction (XRD), Fourier-transform infrared spectroscopy (FT-IR), transmission electron microscopy (TEM), ultraviolet-visible spectrophotometry, and fluorescence spectroscopy analysis. The UV-visible spectrum supported the formation of stable Hc-AgNPs by displaying a strong surface plasmon resonance (SPR) peak at 440 nm. FT-IR spectra showed the functional groups present in the leaf extract of Hedychium coronarium, which was the primary source of secondary metabolites attached to Ag⁰. XRD analysis revealed a distinct 2θ peak of Hc-AgNPs at 38.15°, indicating a face-centred cubic structure with a crystallite size of 22.6 ± 1 nm at the (111) plane. Moreover, TEM demonstrated the spherical morphology of the Hc-AgNPs with an average particle size of 22.42 ± 1 nm. The photophysical characteristics of the Hc-AgNPs, as highlighted by their UV-vis and fluorescence characteristics, revealed their semiconducting nature with an impressive band gap (E_g) value of 3.78 eV. Fascinatingly, the fluorescence activity of Hc-AgNPs at 504 nm showed a broad emission band corresponding to the absorption band at 251 nm. We performed the selective colorimetric sensing of Sn²⁺ metal ions using Hc-AgNPs, which demonstrated a detection limit of 10⁻³ M, suggesting their potential as very good solid biosensors. Interestingly, the Hc-AgNPs showed antifungal activity, which has not been reported before. Specifically, the results showed that the Hc-AgNPs had a higher fungitoxicity effect against Aspergillus flavus (59.58 ± 3.68) than against Fusarium oxysporum (57.93 ± 4.18). The antibacterial activity of the Hc-AgNPs was evaluated against three Gram-negative phytopathogenic bacteria: Xanthomonas oryzae (X. oryzae), Ralstonia solanacearum (R. solanacearum), and Erwinia carotovora (E. carotovora), showing effective inhibition zones of 16.33 ± 0.57, 15.33 ± 0.57, and 14.33 ± 0.57 mm, respectively. These results indicate that the Hc-AgNPs could inhibit these phytopathogenic bacteria with varying degrees of effectiveness in the order of X. oryzae > R. solanacearum > E. carotovora.

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冠突散囊菌叶提取物稳定银纳米粒子的可持续绿色合成及其应用：Sn2+和Hg2+的比色传感以及抗真菌和抗微生物特性。

Hedychium coronarium（Hc）（俗称 Gulbakawali）叶提取物被用于稳定和可持续的银纳米粒子（Hc-AgNPs）的绿色合成，这种纳米粒子可生物降解且无毒。Hedychium coronarium 叶提取物被用作还原剂，通过将 Ag+ 转化为 Ag0 来稳定 Hc-AgNPs，而无需添加任何封端剂。它在长达 6 个月的时间内都表现出稳定性，而且没有观察到团聚现象。利用 X 射线衍射（XRD）、傅立叶变换红外光谱（FT-IR）、透射电子显微镜（TEM）、紫外-可见分光光度法和荧光光谱分析对 Hc-AgNPs 进行了表征。紫外-可见光谱在 440 纳米波长处显示出强烈的表面等离子体共振（SPR）峰，证明形成了稳定的 Hc-AgNPs。傅立叶变换红外光谱显示了冠突散囊菌叶片提取物中存在的官能团，冠突散囊菌是附着在 Ag0 上的次生代谢物的主要来源。XRD 分析显示，Hc-AgNPs 在 38.15° 处有一个明显的 2θ 峰，表明其为面心立方结构，在（111）面上的结晶尺寸为 22.6 ± 1 nm。此外，TEM 显示 Hc-AgNPs 呈球形，平均粒径为 22.42 ± 1 nm。Hc-AgNPs 的光物理特性，如其紫外可见光和荧光特性，显示了其半导体性质，其带隙（E g）值为 3.78 eV，令人印象深刻。令人惊奇的是，Hc-AgNPs 在 504 纳米波长处的荧光活性显示出与 251 纳米波长处的吸收带相对应的宽发射带。我们利用 Hc-AgNPs 对 Sn2+ 金属离子进行了选择性比色传感，结果表明其检测限为 10-3 M，这表明 Hc-AgNPs 有潜力成为非常好的固体生物传感器。有趣的是，Hc-AgNPs 还具有抗真菌活性，这在以前的研究中从未报道过。具体而言，研究结果表明，Hc-AgNPs 对黄曲霉（59.58 ± 3.68）的抗真菌毒性高于对镰刀菌（57.93 ± 4.18）的抗真菌毒性。评估了 Hc-AgNPs 对三种革兰氏阴性植物病原菌的抗菌活性：黄单胞菌（X. oryzae）、茄黄单胞菌（R. solanacearum）和Erwinia carotovora（E. carotovora）的有效抑菌区分别为 16.33 ± 0.57、15.33 ± 0.57 和 14.33 ± 0.57 mm。这些结果表明，Hc-AgNPs 对这些植物病原菌有不同程度的抑制作用，抑制效果依次为 X. oryzae > R. solanacearum > E. carotovora。

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来源期刊

Nanoscale Advances Multiple-

CiteScore

8.00

自引率

2.10%

发文量

461

审稿时长

9 weeks