Alternating and semicontinuous chemical reduction method for high production of silver nanoparticles

Synthesis of silver nanoparticles (AgNPs) was carried out in aqueous solutions. Silver nitrate was used as precursor, carboxymethyl cellulose (CMC) as stabilising agent, and sodium borohydride as reducing agent. The reaction was semicontinuous by feeding both the precursor and reducing agent into th...

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Published inMicro & nano letters Vol. 13; no. 7; pp. 951 - 954
Main Authors Pedroza-Toscano, Miguel A, Lopez-Cuenca, Susana, Moreno-Medrano, Edgar D, Rabelero-Velasco, Martin, Salazar-Peña, Rodolfo
Format Journal Article
LanguageEnglish
Published Stevenage The Institution of Engineering and Technology 01.07.2018
John Wiley & Sons, Inc
Subjects
Aqueous solutions
Carboxymethyl cellulose
Chemical reduction
Chemical synthesis
CMC
high production
low‐temperature effects
nanofabrication
Nanoparticles
Organic chemistry
Precursors
reaction times
reducing agent
Reducing agents
reduction (chemical)
semicontinuous chemical reduction
Silver
silver nanoparticles
silver nitrate precursor
sodium borohydride
Spectrophotometry
spheroidal nanoparticles
stabilising agent
TEM
transmission electron microscopy
transmission electronic microscopy
ultraviolet spectra
UV‐visible spectroscopy
visible spectra
weight ratios
Weight reduction
X-ray diffraction
reaction times
sodium borohydride
Ag
nanofabrication
X-ray diffraction
visible spectra
nanoparticles
carboxymethyl cellulose
reducing agent
CMC
spheroidal nanoparticles
reduction (chemical)
transmission electron microscopy
stabilising agent
silver nitrate precursor
UV-visible spectroscopy
transmission electronic microscopy
high production
aqueous solutions
ultraviolet spectra
silver nanoparticles
low-temperature effects
silver
weight ratios
semicontinuous chemical reduction
TEM
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Abstract Synthesis of silver nanoparticles (AgNPs) was carried out in aqueous solutions. Silver nitrate was used as precursor, carboxymethyl cellulose (CMC) as stabilising agent, and sodium borohydride as reducing agent. The reaction was semicontinuous by feeding both the precursor and reducing agent into the stabilising agent aqueous solution in an alternated fashion. Weight ratios of 1:1 AgNO3:CMC were used in the reduction reactions. AgNPs were characterised by UV–vis spectroscopy, transmission electronic microscopy (TEM), and X-ray diffraction. The formation of AgNPs was confirmed by the presence of an absorption peak about 400 nm using UV–vis spectrophotometry. Spheroidal nanoparticles with an average diameter between 5 and 90 nm were observed by TEM. High productivity of AgNPs was obtained at lower reaction times and at low temperature compared with others previously reported in the literature.
AbstractList Synthesis of silver nanoparticles (AgNPs) was carried out in aqueous solutions. Silver nitrate was used as precursor, carboxymethyl cellulose (CMC) as stabilising agent, and sodium borohydride as reducing agent. The reaction was semicontinuous by feeding both the precursor and reducing agent into the stabilising agent aqueous solution in an alternated fashion. Weight ratios of 1:1 AgNO3:CMC were used in the reduction reactions. AgNPs were characterised by UV–vis spectroscopy, transmission electronic microscopy (TEM), and X-ray diffraction. The formation of AgNPs was confirmed by the presence of an absorption peak about 400 nm using UV–vis spectrophotometry. Spheroidal nanoparticles with an average diameter between 5 and 90 nm were observed by TEM. High productivity of AgNPs was obtained at lower reaction times and at low temperature compared with others previously reported in the literature.
Synthesis of silver nanoparticles (AgNPs) was carried out in aqueous solutions. Silver nitrate was used as precursor, carboxymethyl cellulose (CMC) as stabilising agent, and sodium borohydride as reducing agent. The reaction was semicontinuous by feeding both the precursor and reducing agent into the stabilising agent aqueous solution in an alternated fashion. Weight ratios of 1:1 AgNO3 :CMC were used in the reduction reactions. AgNPs were characterised by UV–vis spectroscopy, transmission electronic microscopy (TEM), and X‐ray diffraction. The formation of AgNPs was confirmed by the presence of an absorption peak about 400 nm using UV–vis spectrophotometry. Spheroidal nanoparticles with an average diameter between 5 and 90 nm were observed by TEM. High productivity of AgNPs was obtained at lower reaction times and at low temperature compared with others previously reported in the literature.
Author Lopez-Cuenca, Susana
Moreno-Medrano, Edgar D
Pedroza-Toscano, Miguel A
Rabelero-Velasco, Martin
Salazar-Peña, Rodolfo
Author_xml – sequence: 1
  givenname: Miguel A
  surname: Pedroza-Toscano
  fullname: Pedroza-Toscano, Miguel A
  organization: 1Departamento de Investigación UTEG, Centro Universitario UTEG, Guadalajara Jalisco C.P. 44460, Mexico
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  givenname: Susana
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  surname: Lopez-Cuenca
  fullname: Lopez-Cuenca, Susana
  organization: 2Instituto Tecnológico José Mario Molina Pasquel y Henríquez, Zapopan Jalisco C.P. 45019, Mexico
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  givenname: Edgar D
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  givenname: Martin
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  givenname: Rodolfo
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  surname: Salazar-Peña
  fullname: Salazar-Peña, Rodolfo
  email: rodolfo.salazar@uteg.edu.mx
  organization: 1Departamento de Investigación UTEG, Centro Universitario UTEG, Guadalajara Jalisco C.P. 44460, Mexico
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Issue 7
Keywords reaction times
sodium borohydride
Ag
nanofabrication
X-ray diffraction
visible spectra
nanoparticles
carboxymethyl cellulose
reducing agent
CMC
spheroidal nanoparticles
reduction (chemical)
transmission electron microscopy
stabilising agent
silver nitrate precursor
UV-visible spectroscopy
transmission electronic microscopy
high production
aqueous solutions
ultraviolet spectra
silver nanoparticles
low-temperature effects
silver
weight ratios
semicontinuous chemical reduction
TEM
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Snippet Synthesis of silver nanoparticles (AgNPs) was carried out in aqueous solutions. Silver nitrate was used as precursor, carboxymethyl cellulose (CMC) as...
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SubjectTerms Aqueous solutions
Carboxymethyl cellulose
Chemical reduction
Chemical synthesis
CMC
high production
low‐temperature effects
nanofabrication
Nanoparticles
Organic chemistry
Precursors
reaction times
reducing agent
Reducing agents
reduction (chemical)
semicontinuous chemical reduction
Silver
silver nanoparticles
silver nitrate precursor
sodium borohydride
Spectrophotometry
spheroidal nanoparticles
stabilising agent
TEM
transmission electron microscopy
transmission electronic microscopy
ultraviolet spectra
UV‐visible spectroscopy
visible spectra
weight ratios
Weight reduction
X-ray diffraction
Title Alternating and semicontinuous chemical reduction method for high production of silver nanoparticles
URI http://digital-library.theiet.org/content/journals/10.1049/mnl.2018.0085
https://onlinelibrary.wiley.com/doi/abs/10.1049%2Fmnl.2018.0085
https://www.proquest.com/docview/2092559801/abstract/
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