Zinc oxide decorated multi-walled carbon nanotubes: Their bolometric properties

Guadalupe García-Valdivieso; J. Jesús Velázquez-Salazar; José Enrique Samaniego-Benítez; Hiram Joazet Ojeda-Galván; M. Josefina Arellano-Jiménez; Karí G.H. Martínez-Reyna; Miguel José-Yacamán; Hugo R. Navarro-Contreras

doi:10.1088/1361-6528/aaa9e1

Zinc oxide decorated multi-walled carbon nanotubes: Their bolometric properties

Guadalupe García-Valdivieso, J. Jesús Velázquez-Salazar, José Enrique Samaniego-Benítez, Hiram Joazet Ojeda-Galván, M. Josefina Arellano-Jiménez, Karí G.H. Martínez-Reyna, Miguel José-Yacamán, Hugo R. Navarro-Contreras

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Resumen

We report the synthesis of MWNT/ZnO hybrid nanostructures. A simple, affordable, chemical procedure to functionalize MWNTs with ZnO nanoparticles was performed. A significant portion of the surface of MWNTs was covered with ZnO nanoparticles; these particles formed highly porous spherical nodules of 50-150 nm in diameter, sizes that are an order of magnitude larger than similar ZnO nanonodules reported in the literature. Hence, the self-assembled nanocomposite the ZnO exhibited a large surface-to-volume ratio, which is a very advantageous property for potential catalytic applications. The resultant MWNT/ZnO nanocomposites were characterized by x-ray diffraction, scanning and high-resolution transmission electron microscopy, and UV-vis and Raman spectroscopy. The temperature coefficient of resistance (TCR) of the nanocomposites was measured and reported. The average TCR value goes from -5.6%/K up to -18%/K, over temperature change intervals from 10 K to 1 K. Based on these TCR results, the nanocomposite MWNT/ZnO prepared in this work is a promising material, with potential application as a bolometric sensor.

Idioma original	Inglés
Número de artículo	125607
Publicación	Nanotechnology
Volumen	29
N.º	12
DOI	https://doi.org/10.1088/1361-6528/aaa9e1
Estado	Publicada - 12 feb. 2018
Publicado de forma externa	Sí

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García-Valdivieso, G., Velázquez-Salazar, J. J., Samaniego-Benítez, J. E., Ojeda-Galván, H. J., Arellano-Jiménez, M. J., Martínez-Reyna, K. G. H., José-Yacamán, M., & Navarro-Contreras, H. R. (2018). Zinc oxide decorated multi-walled carbon nanotubes: Their bolometric properties. Nanotechnology, 29(12), Artículo 125607. https://doi.org/10.1088/1361-6528/aaa9e1

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abstract = "We report the synthesis of MWNT/ZnO hybrid nanostructures. A simple, affordable, chemical procedure to functionalize MWNTs with ZnO nanoparticles was performed. A significant portion of the surface of MWNTs was covered with ZnO nanoparticles; these particles formed highly porous spherical nodules of 50-150 nm in diameter, sizes that are an order of magnitude larger than similar ZnO nanonodules reported in the literature. Hence, the self-assembled nanocomposite the ZnO exhibited a large surface-to-volume ratio, which is a very advantageous property for potential catalytic applications. The resultant MWNT/ZnO nanocomposites were characterized by x-ray diffraction, scanning and high-resolution transmission electron microscopy, and UV-vis and Raman spectroscopy. The temperature coefficient of resistance (TCR) of the nanocomposites was measured and reported. The average TCR value goes from -5.6%/K up to -18%/K, over temperature change intervals from 10 K to 1 K. Based on these TCR results, the nanocomposite MWNT/ZnO prepared in this work is a promising material, with potential application as a bolometric sensor.",

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AU - Ojeda-Galván, Hiram Joazet

AU - Arellano-Jiménez, M. Josefina

AU - Martínez-Reyna, Karí G.H.

AU - José-Yacamán, Miguel

AU - Navarro-Contreras, Hugo R.

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N2 - We report the synthesis of MWNT/ZnO hybrid nanostructures. A simple, affordable, chemical procedure to functionalize MWNTs with ZnO nanoparticles was performed. A significant portion of the surface of MWNTs was covered with ZnO nanoparticles; these particles formed highly porous spherical nodules of 50-150 nm in diameter, sizes that are an order of magnitude larger than similar ZnO nanonodules reported in the literature. Hence, the self-assembled nanocomposite the ZnO exhibited a large surface-to-volume ratio, which is a very advantageous property for potential catalytic applications. The resultant MWNT/ZnO nanocomposites were characterized by x-ray diffraction, scanning and high-resolution transmission electron microscopy, and UV-vis and Raman spectroscopy. The temperature coefficient of resistance (TCR) of the nanocomposites was measured and reported. The average TCR value goes from -5.6%/K up to -18%/K, over temperature change intervals from 10 K to 1 K. Based on these TCR results, the nanocomposite MWNT/ZnO prepared in this work is a promising material, with potential application as a bolometric sensor.

AB - We report the synthesis of MWNT/ZnO hybrid nanostructures. A simple, affordable, chemical procedure to functionalize MWNTs with ZnO nanoparticles was performed. A significant portion of the surface of MWNTs was covered with ZnO nanoparticles; these particles formed highly porous spherical nodules of 50-150 nm in diameter, sizes that are an order of magnitude larger than similar ZnO nanonodules reported in the literature. Hence, the self-assembled nanocomposite the ZnO exhibited a large surface-to-volume ratio, which is a very advantageous property for potential catalytic applications. The resultant MWNT/ZnO nanocomposites were characterized by x-ray diffraction, scanning and high-resolution transmission electron microscopy, and UV-vis and Raman spectroscopy. The temperature coefficient of resistance (TCR) of the nanocomposites was measured and reported. The average TCR value goes from -5.6%/K up to -18%/K, over temperature change intervals from 10 K to 1 K. Based on these TCR results, the nanocomposite MWNT/ZnO prepared in this work is a promising material, with potential application as a bolometric sensor.

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Zinc oxide decorated multi-walled carbon nanotubes: Their bolometric properties

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