Modeling and Synthesis of Ag and Ag/Ni Allied Bimetallic Nanoparticles by Green Method: Optical and Biological Properties
In the quest for environmental remediation which involves eco-friendly synthetic routes, we herein report synthesis and modeling of silver nanoparticles (Ag NPs) and silver/nickel allied bimetallic nanoparticles (Ag/Ni NPs) using plant-extract reduction method. Secondary metabolites in the leaf extr...
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doaj-b46d52da2e04446e9f6e03526971ff7a2020-11-24T20:47:15ZengHindawi LimitedInternational Journal of Biomaterials1687-87871687-87952018-01-01201810.1155/2018/96580809658080Modeling and Synthesis of Ag and Ag/Ni Allied Bimetallic Nanoparticles by Green Method: Optical and Biological PropertiesAnuoluwa Abimbola Akinsiku0Enock Olugbenga Dare1Kolawole Oluseyi Ajanaku2Olayinka Oyewale Ajani3Joseph Adebisi O. Olugbuyiro4Tolutope Oluwasegun Siyanbola5Oluwaseun Ejilude6Moses Eterigho Emetere7Department of Chemistry, Covenant University, PMB 1023, Ota, Ogun State, NigeriaDepartment of Chemistry, Federal University of Agriculture, PMB 2240, Alabata Road, Abeokuta, NigeriaDepartment of Chemistry, Covenant University, PMB 1023, Ota, Ogun State, NigeriaDepartment of Chemistry, Covenant University, PMB 1023, Ota, Ogun State, NigeriaDepartment of Chemistry, Covenant University, PMB 1023, Ota, Ogun State, NigeriaDepartment of Chemistry, Covenant University, PMB 1023, Ota, Ogun State, NigeriaDepartment of Medical and Parasitology, Sacred Heart Hospitals, Lantoro, Abeokuta, NigeriaDepartment of Physics, Covenant University, PMB 1023, Ota, Ogun State, NigeriaIn the quest for environmental remediation which involves eco-friendly synthetic routes, we herein report synthesis and modeling of silver nanoparticles (Ag NPs) and silver/nickel allied bimetallic nanoparticles (Ag/Ni NPs) using plant-extract reduction method. Secondary metabolites in the leaf extract of Canna indica acted as reducing agent. Electronic transitions resulted in emergence of surface plasmon resonance in the regions of 416 nm (Ag NPs) and 421 nm (Ag/Ni NPs) during optical measurements. Further characterizations were done using TEM and EDX. Antimicrobial activity of the nanoparticles against clinical isolates was highly significant as P<0.05. These findings suggest application of Ag NPs as antibacterial agent against E. coli, S. pyogenes, and antifungal agent against C. albicans. Possible antibacterial drugs against S. pyogenes and E. coli can also be designed using Ag/Ni nanohybrid based on their strong inhibition activities. Similarly, the enhanced SPR in the nanoparticles is suggested for applications in optical materials, as good absorbers and scatters of visible light. Theoretical model clarified that the experiment observation on the relationship between metallic nanoparticles penetration through peptidoglycan layers and the activeness of microbial species depends on the nature of the nanoparticles and pore size of the layer.http://dx.doi.org/10.1155/2018/9658080 |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Anuoluwa Abimbola Akinsiku Enock Olugbenga Dare Kolawole Oluseyi Ajanaku Olayinka Oyewale Ajani Joseph Adebisi O. Olugbuyiro Tolutope Oluwasegun Siyanbola Oluwaseun Ejilude Moses Eterigho Emetere |
spellingShingle |
Anuoluwa Abimbola Akinsiku Enock Olugbenga Dare Kolawole Oluseyi Ajanaku Olayinka Oyewale Ajani Joseph Adebisi O. Olugbuyiro Tolutope Oluwasegun Siyanbola Oluwaseun Ejilude Moses Eterigho Emetere Modeling and Synthesis of Ag and Ag/Ni Allied Bimetallic Nanoparticles by Green Method: Optical and Biological Properties International Journal of Biomaterials |
author_facet |
Anuoluwa Abimbola Akinsiku Enock Olugbenga Dare Kolawole Oluseyi Ajanaku Olayinka Oyewale Ajani Joseph Adebisi O. Olugbuyiro Tolutope Oluwasegun Siyanbola Oluwaseun Ejilude Moses Eterigho Emetere |
author_sort |
Anuoluwa Abimbola Akinsiku |
title |
Modeling and Synthesis of Ag and Ag/Ni Allied Bimetallic Nanoparticles by Green Method: Optical and Biological Properties |
title_short |
Modeling and Synthesis of Ag and Ag/Ni Allied Bimetallic Nanoparticles by Green Method: Optical and Biological Properties |
title_full |
Modeling and Synthesis of Ag and Ag/Ni Allied Bimetallic Nanoparticles by Green Method: Optical and Biological Properties |
title_fullStr |
Modeling and Synthesis of Ag and Ag/Ni Allied Bimetallic Nanoparticles by Green Method: Optical and Biological Properties |
title_full_unstemmed |
Modeling and Synthesis of Ag and Ag/Ni Allied Bimetallic Nanoparticles by Green Method: Optical and Biological Properties |
title_sort |
modeling and synthesis of ag and ag/ni allied bimetallic nanoparticles by green method: optical and biological properties |
publisher |
Hindawi Limited |
series |
International Journal of Biomaterials |
issn |
1687-8787 1687-8795 |
publishDate |
2018-01-01 |
description |
In the quest for environmental remediation which involves eco-friendly synthetic routes, we herein report synthesis and modeling of silver nanoparticles (Ag NPs) and silver/nickel allied bimetallic nanoparticles (Ag/Ni NPs) using plant-extract reduction method. Secondary metabolites in the leaf extract of Canna indica acted as reducing agent. Electronic transitions resulted in emergence of surface plasmon resonance in the regions of 416 nm (Ag NPs) and 421 nm (Ag/Ni NPs) during optical measurements. Further characterizations were done using TEM and EDX. Antimicrobial activity of the nanoparticles against clinical isolates was highly significant as P<0.05. These findings suggest application of Ag NPs as antibacterial agent against E. coli, S. pyogenes, and antifungal agent against C. albicans. Possible antibacterial drugs against S. pyogenes and E. coli can also be designed using Ag/Ni nanohybrid based on their strong inhibition activities. Similarly, the enhanced SPR in the nanoparticles is suggested for applications in optical materials, as good absorbers and scatters of visible light. Theoretical model clarified that the experiment observation on the relationship between metallic nanoparticles penetration through peptidoglycan layers and the activeness of microbial species depends on the nature of the nanoparticles and pore size of the layer. |
url |
http://dx.doi.org/10.1155/2018/9658080 |
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