Stabilization Methods in the Submerged Arc Discharge Synthesis of Carbon Nanostructures

Lorenzo Hernandez-Tabares; Juan G. Darias-Gonzalez; Frank J. Chao-Mujica; Luis M. Ledo-Pereda; Manuel Antuch; Ernesto Carrillo-Barroso; J. Enrique Chong-Quero; Edilso Reguera; Luis F. Desdin-Garcia

doi:10.1155/2021/6550809

Stabilization Methods in the Submerged Arc Discharge Synthesis of Carbon Nanostructures

Lorenzo Hernandez-Tabares, Juan G. Darias-Gonzalez, Frank J. Chao-Mujica, Luis M. Ledo-Pereda, Manuel Antuch, Ernesto Carrillo-Barroso, J. Enrique Chong-Quero, Edilso Reguera, Luis F. Desdin-Garcia

Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada (CICATA), Unidad Legaria

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

7 Citas (Scopus)

Resumen

Many papers, in which the submerged arc discharge (SAD) method in nanoparticle synthesis was used, reported similar operating parameters, but different electrode erosion rate values, different yields and purities of the obtained nanostructures, and a different sort of contaminants present in the synthesis. Analyzing these articles, we found insufficient attention to ensure the arc power stability, which is a key factor guaranteeing the product homogeneity and quality. This paper presents an analysis of different control strategies, remarks their advantages and drawbacks, and proposes the most appropriate technique to be used in SAD. The most appropriate technique is proposed from the SAD stabilization method analysis.

Idioma original	Inglés
Número de artículo	6550809
Publicación	Journal of Nanomaterials
Volumen	2021
DOI	https://doi.org/10.1155/2021/6550809
Estado	Publicada - 2021

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title = "Stabilization Methods in the Submerged Arc Discharge Synthesis of Carbon Nanostructures",

abstract = "Many papers, in which the submerged arc discharge (SAD) method in nanoparticle synthesis was used, reported similar operating parameters, but different electrode erosion rate values, different yields and purities of the obtained nanostructures, and a different sort of contaminants present in the synthesis. Analyzing these articles, we found insufficient attention to ensure the arc power stability, which is a key factor guaranteeing the product homogeneity and quality. This paper presents an analysis of different control strategies, remarks their advantages and drawbacks, and proposes the most appropriate technique to be used in SAD. The most appropriate technique is proposed from the SAD stabilization method analysis.",

author = "Lorenzo Hernandez-Tabares and Darias-Gonzalez, {Juan G.} and Chao-Mujica, {Frank J.} and Ledo-Pereda, {Luis M.} and Manuel Antuch and Ernesto Carrillo-Barroso and Chong-Quero, {J. Enrique} and Edilso Reguera and Desdin-Garcia, {Luis F.}",

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T1 - Stabilization Methods in the Submerged Arc Discharge Synthesis of Carbon Nanostructures

AU - Hernandez-Tabares, Lorenzo

AU - Darias-Gonzalez, Juan G.

AU - Chao-Mujica, Frank J.

AU - Ledo-Pereda, Luis M.

AU - Antuch, Manuel

AU - Carrillo-Barroso, Ernesto

AU - Chong-Quero, J. Enrique

AU - Reguera, Edilso

AU - Desdin-Garcia, Luis F.

PY - 2021

Y1 - 2021

N2 - Many papers, in which the submerged arc discharge (SAD) method in nanoparticle synthesis was used, reported similar operating parameters, but different electrode erosion rate values, different yields and purities of the obtained nanostructures, and a different sort of contaminants present in the synthesis. Analyzing these articles, we found insufficient attention to ensure the arc power stability, which is a key factor guaranteeing the product homogeneity and quality. This paper presents an analysis of different control strategies, remarks their advantages and drawbacks, and proposes the most appropriate technique to be used in SAD. The most appropriate technique is proposed from the SAD stabilization method analysis.

AB - Many papers, in which the submerged arc discharge (SAD) method in nanoparticle synthesis was used, reported similar operating parameters, but different electrode erosion rate values, different yields and purities of the obtained nanostructures, and a different sort of contaminants present in the synthesis. Analyzing these articles, we found insufficient attention to ensure the arc power stability, which is a key factor guaranteeing the product homogeneity and quality. This paper presents an analysis of different control strategies, remarks their advantages and drawbacks, and proposes the most appropriate technique to be used in SAD. The most appropriate technique is proposed from the SAD stabilization method analysis.

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U2 - 10.1155/2021/6550809

DO - 10.1155/2021/6550809

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SN - 1687-4110

VL - 2021

JO - Journal of Nanomaterials

JF - Journal of Nanomaterials

M1 - 6550809

ER -

Stabilization Methods in the Submerged Arc Discharge Synthesis of Carbon Nanostructures

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