Green synthesis of Ag nanoparticles using Tamarind fruit extract for the antibacterial studies

Jayaprakash, N.; Vijaya, J. Judith; Kaviyarasu, K.; Kombaiah, K.; Kennedy, L. John; Ramalingam, R. Jothi; Munusamy, Murugan A.; Al‐Lohedan, Hamad A.

doi:10.1016/j.jphotobiol.2017.03.013

Cited by 195 publications

(62 citation statements)

References 46 publications

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“…Recently, AgNPs synthesis by plants extract divert researchers' attention and continued to increase its synthesis from various plant extracts such as synthesis of AgNPs from Bunium persicum seeds extract [64], Hamamelis virginiana leaf extract [65], Carpobrotus acinaciformis extract [66], Psychotria nilgiriensis leaf extract [67], Rubus ellipticus leaf extract [68], Phyllanthus acidus L. fruit extracts [69], Ag/TiO 2 nanocomposite synthesis using Euphorbia heterophylla leaf extract [70], Ag/ zeolite nanocomposite using Euphorbia prolifera leaf extract [71], Ag nanoparticles using Tamarind fruit extract [72], AgNPs using Carpobrotus acinaciformis extract [66], Ag/RGO nanocomposite by use of Abutilon hirtum leaf extract [73], Euphorbia helioscopia linn as a green source for synthesis of silver [74], Ag and Au nanoparticles using Spinacia oleracea linn. Leaf extract [75], Ag nanocomposite using Euphorbia heterophylla leaf extract [76].…”

Section: Synthesis Silver Nanoparticles (Agnps) Using Plant Extractsmentioning

confidence: 99%

Synthesis paradigm and applications of silver nanoparticles (AgNPs), a review

Beyene

Werkneh

Bezabh

et al. 2017

Sustainable Materials and Technologies

246

155

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Section: Synthesis Silver Nanoparticles (Agnps) Using Plant Extractsmentioning

confidence: 99%

Synthesis paradigm and applications of silver nanoparticles (AgNPs), a review

Beyene

Werkneh

Bezabh

et al. 2017

Sustainable Materials and Technologies

246

155

View full text Add to dashboard Cite

“…One of the most significant aspects of a photocatalyst is bacterial inactivation property. During the irradiation of a suitable light source to photocatalyst, different reactive species like superoxide and hydroxyl radicals, as well as photogenerated electron and hole, can cause microorganisms, such as bacteria and viruses which should be deactivated (Foster et al, 2011;Basith et al, 2014;Jayaprakash et al, 2015;Jesudoss et al, 2016;Jayaprakash et al, 2017). Antibacterial activity of TiO 2 stems from the creation of reactive oxygen species (ROS) after absorption of a photon with full energy and then, excitation of a negative charge from the valence band of TiO2 to the conduction band.…”

Section: Introductionmentioning

confidence: 99%

Preparation of Fe3O4/SiO2/TiO2/CeVO4 Nanocomposites: Investigation of Photocatalytic Effects on Organic Pollutants, Bacterial Environments, and New Potential Therapeutic Candidate Against Cancer Cells

et al. 2020

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The new nanocomposite with various molar ratios along with magnetic properties was fabricated via precipitation (assisted by ultrasonic) procedure. The photocatalytic effects of methylene blue (∼90% degradation for optimized sample in 100 min) for finding the optimized sample performed under visible light irradiation. Moreover, the photo-antibacterial impacts of bacteria culture environments were found with an optimized sample that had effective destruction of bacteria in comparison to control group. The cytotoxicity properties of panc1 cells and magnetic behaviors of the obtained nanomaterials were evaluated and its IC50 was about 500 mg/L. As an initial step, the structural, morphological and magnetic characteristics of the fabricated nanocomposites were evaluated by Fourier transform infrared spectroscopy (FT-IR), scanning electron microscopy (SEM), X-ray diffraction (XRD), energy dispersive X-ray (EDX) and MAP, UV-visible diffuse reflectance spectroscopy (DRS), and vibrating sample magnetometry (VSM) approaches. Based on SEM results, the size of nanoparticles in fabricated nanocomposite was nearly 50-70 nm for Fe 3 O 4 /SiO 2 /TiO 2 and 80-100 nm for Fe 3 O 4 /SiO 2 /TiO 2 /CeVO 4 . XRD results showed that desired nanocomposites were truly synthesized without any impurities.

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“…Recently, metal nanoparticle particularly silver is synthesized using plant extract as reducing as well as stabilizing agent, which has wide range of applications ,. According to previous literature, silver ion is reduced by using bio‐reducing agent such as tamarind fruit extract, olive leaf extract, Acmella oleracea flower extract for antibacterial and sensing property. Herein, clove ( Syzygium aromaticum ) leaf extract is used for the synthesis of silver nanoparticle as both reducing and stabilizing agent and also used in catalytic and sensing application, which is scanty in literature.…”

Section: Introductionmentioning

confidence: 99%

Dual Activities of Nano Silver Embedded Reduced Graphene Oxide Using Clove Leaf Extracts: Hg²⁺ Sensing and Catalytic Degradation

et al. 2019

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Silver nanoparticles embedded reduced graphene oxide (rGO−Ag) nanocomposites are synthesized by green technique using clove leaf aqueous extract as reducing agent. The surface plasmon resonance (SPR) peak of silver nanoparticles (Ag NPs) at 410 nm in rGO−Ag nanocomposites is analysed by UV–visible spectroscopy. The intensity of surface plasmon resonance (SPR) peak of Ag NPs in rGO−Ag nanocomposites is decreased with addition of Hg2+ ion at small interval of time. This is due to the occurrence of redox reaction between Ag(0) and Hg2+ and also for the formation Ag/Hg amalgam. The lower limit of detection (LOD) of rGO−Ag nanocomposites for Hg2+ ion is found to be 9.5 nM. Moreover, the rGO−Ag nanocomposites may be used as catalyst for degradation of methylene blue (MB) by sodium borohydride (NaBH4) at ambient temperature. The adsorption efficiency of methylene blue is increased due to hydrogen bonding and electrostatic interaction along with π–π stacking between the catalyst and the dye molecules. The methylene blue is degraded within a small time due to large surface area and more number of active sites of rGO−Ag nanocomposites. The as‐synthesized nanocomposite is a potential hybrid material having dual activity as Hg2+ sensing and catalytic behaviour in degradation of methylene blue.

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Green synthesis of Ag nanoparticles using Tamarind fruit extract for the antibacterial studies

Cited by 195 publications

References 46 publications

Synthesis paradigm and applications of silver nanoparticles (AgNPs), a review

Synthesis paradigm and applications of silver nanoparticles (AgNPs), a review

Preparation of Fe3O4/SiO2/TiO2/CeVO4 Nanocomposites: Investigation of Photocatalytic Effects on Organic Pollutants, Bacterial Environments, and New Potential Therapeutic Candidate Against Cancer Cells

Dual Activities of Nano Silver Embedded Reduced Graphene Oxide Using Clove Leaf Extracts: Hg²⁺ Sensing and Catalytic Degradation

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Green synthesis of Ag nanoparticles using Tamarind fruit extract for the antibacterial studies

Cited by 195 publications

References 46 publications

Synthesis paradigm and applications of silver nanoparticles (AgNPs), a review

Synthesis paradigm and applications of silver nanoparticles (AgNPs), a review

Preparation of Fe3O4/SiO2/TiO2/CeVO4 Nanocomposites: Investigation of Photocatalytic Effects on Organic Pollutants, Bacterial Environments, and New Potential Therapeutic Candidate Against Cancer Cells

Dual Activities of Nano Silver Embedded Reduced Graphene Oxide Using Clove Leaf Extracts: Hg2+ Sensing and Catalytic Degradation

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Dual Activities of Nano Silver Embedded Reduced Graphene Oxide Using Clove Leaf Extracts: Hg²⁺ Sensing and Catalytic Degradation