Síntesis de nanopartículas de plata con extractos de cuatro plantas usadas en la medicina tradicional mexicana
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abstract
Silver has been used for a long time as an antimicrobial agent, nowadays, with the use of technology
and chemistry, the size of silver can be reduced to nanoparticles (Ag NP) with a size smaller than 100
nm. The smaller the size of the silver, it increases and enhances its properties, in this work silver
nanoparticles were synthesized using extracts from some medicinal plants of traditional Mexican
medicine, the reaction process was controlled with UV-Vis spectroscopy and The effect of the extracts
was investigated with the use of a transmission electron microscope (MET) in addition to dynamic light
scattering (DLS). The results indicated that the extracts played a reducing and controlling role during
formation. of silver NP in the solutions, and that the structure of the extracts changed after the reaction
with the silver ions.
Silver has been used for a long time as an antimicrobial agent, nowadays, with the use of technology
and chemistry, the size of silver can be reduced to nanoparticles (Ag NP) with a size smaller than 100
nm. The smaller the size of the silver, it increases and enhances its properties, in this work silver
nanoparticles were synthesized using extracts from some medicinal plants of traditional Mexican
medicine, the reaction process was controlled with UV-Vis spectroscopy and The effect of the extracts
was investigated with the use of a transmission electron microscope (MET) in addition to dynamic light
scattering (DLS). The results indicated that the extracts played a reducing and controlling role during
formation. of silver NP in the solutions, and that the structure of the extracts changed after the reaction
with the silver ions.
Silver has been used for a long time as an antimicrobial agent, nowadays, with the use of technology
and chemistry, the size of silver can be reduced to nanoparticles (Ag NP) with a size smaller than 100
nm. The smaller the size of the silver, it increases and enhances its properties, in this work silver
nanoparticles were synthesized using extracts from some medicinal plants of traditional Mexican
medicine, the reaction process was controlled with UV-Vis spectroscopy and The effect of the extracts
was investigated with the use of a transmission electron microscope (MET) in addition to dynamic light
scattering (DLS). The results indicated that the extracts played a reducing and controlling role during
formation. of silver NP in the solutions, and that the structure of the extracts changed after the reaction
with the silver ions.
Silver has been used for a long time as an antimicrobial agent, nowadays, with the use of technology
and chemistry, the size of silver can be reduced to nanoparticles (Ag NP) with a size smaller than 100
nm. The smaller the size of the silver, it increases and enhances its properties, in this work silver
nanoparticles were synthesized using extracts from some medicinal plants of traditional Mexican
medicine, the reaction process was controlled with UV-Vis spectroscopy and The effect of the extracts
was investigated with the use of a transmission electron microscope (MET) in addition to dynamic light
scattering (DLS). The results indicated that the extracts played a reducing and controlling role during
formation. of silver NP in the solutions, and that the structure of the extracts changed after the reaction
with the silver ions.
Silver has been used for a long time as an antimicrobial agent, nowadays, with the use of technology
and chemistry, the size of silver can be reduced to nanoparticles (Ag NP) with a size smaller than 100
nm. The smaller the size of the silver, it increases and enhances its properties, in this work silver
nanoparticles were synthesized using extracts from some medicinal plants of traditional Mexican
medicine, the reaction process was controlled with UV-Vis spectroscopy and The effect of the extracts
was investigated with the use of a transmission electron microscope (MET) in addition to dynamic light
scattering (DLS). The results indicated that the extracts played a reducing and controlling role during
formation. of silver NP in the solutions, and that the structure of the extracts changed after the reaction
with the silver ions.
Silver has been used for a long time as an antimicrobial agent, nowadays, with the use of technology
and chemistry, the size of silver can be reduced to nanoparticles (Ag NP) with a size smaller than 100
nm. The smaller the size of the silver, it increases and enhances its properties, in this work silver
nanoparticles were synthesized using extracts from some medicinal plants of traditional Mexican
medicine, the reaction process was controlled with UV-Vis spectroscopy and The effect of the extracts
was investigated with the use of a transmission electron microscope (MET) in addition to dynamic light
scattering (DLS). The results indicated that the extracts played a reducing and controlling role during
formation. of silver NP in the solutions, and that the structure of the extracts changed after the reaction
with the silver ions.
Silver has been used for a long time as an antimicrobial agent, nowadays, with the use of technology
and chemistry, the size of silver can be reduced to nanoparticles (Ag NP) with a size smaller than 100
nm. The smaller the size of the silver, it increases and enhances its properties, in this work silver
nanoparticles were synthesized using extracts from some medicinal plants of traditional Mexican
medicine, the reaction process was controlled with UV-Vis spectroscopy and The effect of the extracts
was investigated with the use of a transmission electron microscope (MET) in addition to dynamic light
scattering (DLS). The results indicated that the extracts played a reducing and controlling role during
formation. of silver NP in the solutions, and that the structure of the extracts changed after the reaction
with the silver ions.
Silver has been used for a long time as an antimicrobial agent, nowadays, with the use of technology
and chemistry, the size of silver can be reduced to nanoparticles (Ag NP) with a size smaller than 100
nm. The smaller the size of the silver, it increases and enhances its properties, in this work silver
nanoparticles were synthesized using extracts from some medicinal plants of traditional Mexican
medicine, the reaction process was controlled with UV-Vis spectroscopy and The effect of the extracts
was investigated with the use of a transmission electron microscope (MET) in addition to dynamic light
scattering (DLS). The results indicated that the extracts played a reducing and controlling role during
formation. of silver NP in the solutions, and that the structure of the extracts changed after the reaction
with the silver ions.
