Eco-friendly microwave-assisted green and rapid synthesis of well-stabilized gold and core–shell silver–gold nanoparticles

Eco-friendly microwave-assisted green and rapid synthesis of well-stabilized gold and core–shell silver–gold nanoparticles

•Microwave-aided technology for rapid and green preparation.•Synthesis of AuNPs and as bimetallic core–shell nanoparticles (AgNPs–AuNPs).•Using curdlan (CRD) biopolymer to perform the dual role of reducing and capping agents. Herein, we present a new approach for the synthesis of gold nanoparticles...

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Bibliographic Details
Published in:Carbohydrate polymers Vol. 136; pp. 1128 - 1136
Main Authors: El-Naggar, Mehrez E., Shaheen, Tharwat I., Fouda, Moustafa M.G., Hebeish, Ali A.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 20-01-2016
Subjects:
beta-Glucans - chemistry
Chemistry Techniques, Synthetic
Core–shell
Curdlan
Gold - chemistry
Gold nanoparticles
Green Chemistry Technology - methods
Kinetics
Metal Nanoparticles - chemistry
Microwave
Microwaves
Models, Molecular
Molecular Conformation
Nanotechnology - methods
Silver - chemistry
Silver nanoparticles
Microwave
Core–shell
Curdlan
Gold nanoparticles
Silver nanoparticles
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Abstract •Microwave-aided technology for rapid and green preparation.•Synthesis of AuNPs and as bimetallic core–shell nanoparticles (AgNPs–AuNPs).•Using curdlan (CRD) biopolymer to perform the dual role of reducing and capping agents. Herein, we present a new approach for the synthesis of gold nanoparticles (AuNPs) individually and as bimetallic core–shell nanoparticles (AgNPs–AuNPs). The novelty of the approach is further maximized by using curdlan (CRD) biopolymer to perform the dual role of reducing and capping agents and microwave-aided technology for affecting the said nanoparticles with varying concentrations in addition to those affected by precursor concentrations. Thus, for preparation of AuNPs, curdlan was solubilized in alkali solution followed by an addition of tetrachloroauric acid (HAuCl4). The curdlan solution containing HAuCl4 was then subjected to microwave radiation for up to 10min. The optimum conditions obtained with the synthesis of AuNPs were employed for preparation of core–shell silver–gold nanoparticles by replacing definite portion of HAuCl4 with an equivalent portion of silver nitrate (AgNO3). The portion of AgNO3 was added initially and allowed to be reduced by virtue of the dual role of curdlan under microwave radiation. The corresponding portion of HAuCl4 was then added and allowed to complete the reaction. Characterization of AuNPs and AgNPs–AuNPs core–shell were made using UV–vis spectra, TEM, FTIR, XRD, zeta potential, and AFM analysis. Accordingly, strong peaks of the colloidal particles show surface plasmon resonance (SPR) at maximum wavelength of 540nm, proving the formation of well-stabilized gold nanoparticles. TEM investigations reveal that the major size of AuNPs formed at different Au+3concentration lie below 20nm with narrow size distribution. Whilst, the SPR bands of AgNPs–AuNPs core–shell differ than those obtained from original AgNPs (420nm) and AuNPs (540nm). Such shifting due to SPR of Au nanoshell deposited onto AgNPs core was significantly affected by the variation of bimetallic ratios applied. TEM micrographs show variation in contrast between dark silver core and the lighter gold shell. Increasing the ratio of silver ions leads to significant decrease in zeta potential of the formed bimetallic core–shell. FT-IR discloses the interaction between CRD and metal nanoparticles, which could be the question of reducing and stabilizing metal and bimetallic nanoparticles. XRD patterns assume insufficient difference for the AuNPs and AgNPs–AuNPs core–shell samples due to close lattice constants of Ag and Au. Based on AFM, AuNPs and AgNPs–AuNPs core–shell exhibited good monodispersity with spherical particles possessing different sizes in the studied samples. The average sizes of both metal and bimetallic core–shell were found to be 52 and 45nm, respectively.
AbstractList Herein, we present a new approach for the synthesis of gold nanoparticles (AuNPs) individually and as bimetallic core-shell nanoparticles (AgNPs-AuNPs). The novelty of the approach is further maximized by using curdlan (CRD) biopolymer to perform the dual role of reducing and capping agents and microwave-aided technology for affecting the said nanoparticles with varying concentrations in addition to those affected by precursor concentrations. Thus, for preparation of AuNPs, curdlan was solubilized in alkali solution followed by an addition of tetrachloroauric acid (HAuCl4). The curdlan solution containing HAuCl4 was then subjected to microwave radiation for up to 10 min. The optimum conditions obtained with the synthesis of AuNPs were employed for preparation of core-shell silver-gold nanoparticles by replacing definite portion of HAuCl4 with an equivalent portion of silver nitrate (AgNO3). The portion of AgNO3 was added initially and allowed to be reduced by virtue of the dual role of curdlan under microwave radiation. The corresponding portion of HAuCl4 was then added and allowed to complete the reaction. Characterization of AuNPs and AgNPs-AuNPs core-shell were made using UV-vis spectra, TEM, FTIR, XRD, zeta potential, and AFM analysis. Accordingly, strong peaks of the colloidal particles show surface plasmon resonance (SPR) at maximum wavelength of 540 nm, proving the formation of well-stabilized gold nanoparticles. TEM investigations reveal that the major size of AuNPs formed at different Au(+3)concentration lie below 20 nm with narrow size distribution. Whilst, the SPR bands of AgNPs-AuNPs core-shell differ than those obtained from original AgNPs (420 nm) and AuNPs (540 nm). Such shifting due to SPR of Au nanoshell deposited onto AgNPs core was significantly affected by the variation of bimetallic ratios applied. TEM micrographs show variation in contrast between dark silver core and the lighter gold shell. Increasing the ratio of silver ions leads to significant decrease in zeta potential of the formed bimetallic core-shell. FT-IR discloses the interaction between CRD and metal nanoparticles, which could be the question of reducing and stabilizing metal and bimetallic nanoparticles. XRD patterns assume insufficient difference for the AuNPs and AgNPs-AuNPs core-shell samples due to close lattice constants of Ag and Au. Based on AFM, AuNPs and AgNPs-AuNPs core-shell exhibited good monodispersity with spherical particles possessing different sizes in the studied samples. The average sizes of both metal and bimetallic core-shell were found to be 52 and 45 nm, respectively.
•Microwave-aided technology for rapid and green preparation.•Synthesis of AuNPs and as bimetallic core–shell nanoparticles (AgNPs–AuNPs).•Using curdlan (CRD) biopolymer to perform the dual role of reducing and capping agents. Herein, we present a new approach for the synthesis of gold nanoparticles (AuNPs) individually and as bimetallic core–shell nanoparticles (AgNPs–AuNPs). The novelty of the approach is further maximized by using curdlan (CRD) biopolymer to perform the dual role of reducing and capping agents and microwave-aided technology for affecting the said nanoparticles with varying concentrations in addition to those affected by precursor concentrations. Thus, for preparation of AuNPs, curdlan was solubilized in alkali solution followed by an addition of tetrachloroauric acid (HAuCl4). The curdlan solution containing HAuCl4 was then subjected to microwave radiation for up to 10min. The optimum conditions obtained with the synthesis of AuNPs were employed for preparation of core–shell silver–gold nanoparticles by replacing definite portion of HAuCl4 with an equivalent portion of silver nitrate (AgNO3). The portion of AgNO3 was added initially and allowed to be reduced by virtue of the dual role of curdlan under microwave radiation. The corresponding portion of HAuCl4 was then added and allowed to complete the reaction. Characterization of AuNPs and AgNPs–AuNPs core–shell were made using UV–vis spectra, TEM, FTIR, XRD, zeta potential, and AFM analysis. Accordingly, strong peaks of the colloidal particles show surface plasmon resonance (SPR) at maximum wavelength of 540nm, proving the formation of well-stabilized gold nanoparticles. TEM investigations reveal that the major size of AuNPs formed at different Au+3concentration lie below 20nm with narrow size distribution. Whilst, the SPR bands of AgNPs–AuNPs core–shell differ than those obtained from original AgNPs (420nm) and AuNPs (540nm). Such shifting due to SPR of Au nanoshell deposited onto AgNPs core was significantly affected by the variation of bimetallic ratios applied. TEM micrographs show variation in contrast between dark silver core and the lighter gold shell. Increasing the ratio of silver ions leads to significant decrease in zeta potential of the formed bimetallic core–shell. FT-IR discloses the interaction between CRD and metal nanoparticles, which could be the question of reducing and stabilizing metal and bimetallic nanoparticles. XRD patterns assume insufficient difference for the AuNPs and AgNPs–AuNPs core–shell samples due to close lattice constants of Ag and Au. Based on AFM, AuNPs and AgNPs–AuNPs core–shell exhibited good monodispersity with spherical particles possessing different sizes in the studied samples. The average sizes of both metal and bimetallic core–shell were found to be 52 and 45nm, respectively.
Author Hebeish, Ali A.
El-Naggar, Mehrez E.
Shaheen, Tharwat I.
Fouda, Moustafa M.G.
Author_xml – sequence: 1
  givenname: Mehrez E.
  surname: El-Naggar
  fullname: El-Naggar, Mehrez E.
  organization: National Research Centre, Textile Research Division, Dokki, Cairo, Egypt
– sequence: 2
  givenname: Tharwat I.
  surname: Shaheen
  fullname: Shaheen, Tharwat I.
  email: Shaheen_chem@yahoo.com
  organization: National Research Centre, Textile Research Division, Dokki, Cairo, Egypt
– sequence: 3
  givenname: Moustafa M.G.
  surname: Fouda
  fullname: Fouda, Moustafa M.G.
  organization: National Research Centre, Textile Research Division, Dokki, Cairo, Egypt
– sequence: 4
  givenname: Ali A.
  surname: Hebeish
  fullname: Hebeish, Ali A.
  organization: National Research Centre, Textile Research Division, Dokki, Cairo, Egypt
BackLink https://www.ncbi.nlm.nih.gov/pubmed/26572455$$D View this record in MEDLINE/PubMed
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Keywords Microwave
Core–shell
Curdlan
Gold nanoparticles
Silver nanoparticles
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Snippet •Microwave-aided technology for rapid and green preparation.•Synthesis of AuNPs and as bimetallic core–shell nanoparticles (AgNPs–AuNPs).•Using curdlan (CRD)...
Herein, we present a new approach for the synthesis of gold nanoparticles (AuNPs) individually and as bimetallic core-shell nanoparticles (AgNPs-AuNPs). The...
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SubjectTerms beta-Glucans - chemistry
Chemistry Techniques, Synthetic
Core–shell
Curdlan
Gold - chemistry
Gold nanoparticles
Green Chemistry Technology - methods
Kinetics
Metal Nanoparticles - chemistry
Microwave
Microwaves
Models, Molecular
Molecular Conformation
Nanotechnology - methods
Silver - chemistry
Silver nanoparticles
Title Eco-friendly microwave-assisted green and rapid synthesis of well-stabilized gold and core–shell silver–gold nanoparticles
URI https://dx.doi.org/10.1016/j.carbpol.2015.10.003
https://www.ncbi.nlm.nih.gov/pubmed/26572455
https://search.proquest.com/docview/1734280634
Volume 136
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