Carbon Nanofibers Synthesized at Different Pressures for Detection of NO2 at Room Temperature

Lapekin, Nikita I.; Kurmashov, Pavel B.; Larina, T. V.; Chesalov, Yu. A.; Kurdyumov, Dmitri S.; Ukhina, Arina V.; Максимовский, Е. А.; Ищенко, А. В.; Sysoev, Vitalii I.; Bannov, Alexander G.

doi:10.3390/chemosensors11070381

Chemosensors

2023

DOI: 10.3390/chemosensors11070381

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Carbon Nanofibers Synthesized at Different Pressures for Detection of NO2 at Room Temperature

Nikita I. Lapekin

Pavel B. Kurmashov

T. V. Larina

et al.

Abstract: In this paper, room-temperature chemiresistive gas sensors for NO2 detection based on CVD-grown carbon nanofibers (CNFs) were investigated. Transmission electron microscopy, low-temperature nitrogen adsorption, and X-ray diffraction were used to investigate the carbon nanomaterials. CNFs were synthesized in a wide range of pressure (1–5 bar) by COx-free decomposition of methane over the Ni/Al2O3 catalyst. It was found that the increase in pressure during the synthesis of CNFs induced the later deactivation of … Show more

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2024

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Cited by 2 publications

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Muti‐Responsive Flexible Ln‐MOFs Paper Based on Cellulose Fibers for Sensing Humidity, pH and Phenylenediamine

Liu,

Jia,

Fang

et al. 2024

Eur J Inorg Chem

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The natural polymer cellulose exhibits significant potential for various applications due to its unique optical, electronic, and chemical properties. However, the use of cellulose materials in luminescent applications has been relatively limited. This study aims to develop a simple and efficient method to enhance the fluorescence of cellulose materials by incorporating rare earth elements, thereby expanding their range of applications. In this work, we synthesized hybrid cellulose materials by grafting Eu‐bpy (H2bpydc = 2,2‐bipyridine‐5,5‐dicarboxylic acid) onto the surface of cellulose fibers through a straightforward post‐processing procedure, resulting in materials with excellent fluorescence properties. By leveraging the abundant hydroxyl groups on the surface of cellulose fibers, Eu‐bpy@CF exhibits high luminescence in response to relative humidity and pH changes, with a noticeable color shift from light red to red visible to the naked eye. Consequently, these materials were further applied in the construction of smart fluorescent switches for the highly accurate and selective detection of phenylenediamine. Our research provides a simple approach to creating environmentally responsive handheld fluorescent papers and expands the diversity of rare‐earth cellulose fibers for developing new fluorescent materials with smart functions

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Muti‐Responsive Flexible Ln‐MOFs Paper Based on Cellulose Fibers for Sensing Humidity, pH and Phenylenediamine

Liu,

Jia,

Fang

et al. 2024

Eur J Inorg Chem

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show abstract

Conductive polymer-multi-walled carbon nanotube composites for gas sensors and supercapacitors

Golovakhin,

Litvinova,

Manakhov

et al. 2024

Materials Today Communications

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Carbon Nanofibers Synthesized at Different Pressures for Detection of NO2 at Room Temperature

Cited by 2 publications

References 80 publications

Muti‐Responsive Flexible Ln‐MOFs Paper Based on Cellulose Fibers for Sensing Humidity, pH and Phenylenediamine

Muti‐Responsive Flexible Ln‐MOFs Paper Based on Cellulose Fibers for Sensing Humidity, pH and Phenylenediamine

Conductive polymer-multi-walled carbon nanotube composites for gas sensors and supercapacitors

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