Afnan H. Al-Husseini scite author profile

Afnan H. Al-Husseini

3Publications

11Citation Statements Received

0Citation Statements Given

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Affiliations

University of Baghdad

Publications

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Specific NH<sub>3</sub> Gas Sensor Worked at Room Temperature Based on MWCNTs-OH Network

Al-Husseini

Al-Sammarraie

Saleh

2018

NHC

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Functionalized Multi-Walled Carbon Nanotubes (MWCNTs-OH) network with thickness 4μm was made by the vacuum filtration from suspension (FFS) method. The morphology, structure and optical properties of the MWCNTs film were characterized by SEM and UV-Vis. spectra techniques. The SEM images reflected highly ordered network in the form of ropes or bundles with close-packing which looks like spaghetti. The absorbance spectrum revealed that the network has a good absorbance in the UV-Vis. region. The gas sensor system was used to test the MWCNT-OH network to detect NH3gas at room temperature. The resistance of the sensor was increased when exposed to the NH3gas. The sensitivities of the network were 1.3% at 14ppm, 3.3% at 27ppm and 6.13% at 68ppm. The sensor is specifically sensitive to NH3gas and does not affect by the amount of ambient air.

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A Specific NH<sub>3</sub> Gas Sensor of a Thick MWCNTs-OH Network for Detection at Room Temperature

Al-Husseini

Saleh

Al-Sammarraie

2019

JNanoR

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NH3gas sensor was fabricated based on deposited of Functionalized Multi-Walled Carbon Nanotubes (MWCNTs-OH) suspension on filter paper substrates using suspension filtration method. The structural, morphological and optical properties of the MWCNTs film were characterized by XRD, AFM and FTIR techniques. XRD measurement confirmed that the structure of MWCNTs is not affected by the preparation method. The AFM images reflected highly ordered network in the form of a mat. The functional groups and types of bonding have appeared in the FTIR spectra. The fingerprint (C-C stretch) of MWCNTs appears in 1365 cm-1, and the backbone of CNTs observed at 1645 cm-1. A homemade sensing device was used to evaluate the fabrication network toward NH3gas at ppm levels as well as the response to sensitivity by changing the concentration. MWCNTs-OH network of 8mm thickness showed an increase in resistance upon exposure to the NH3gas. The sensor exhibits a good sensitivity for low concentration of NH3gas at room temperature. The sensitivities of the network were 2.5% at 14ppm, 5.3% at 27ppm and 17.6% at 68ppm. Further investigations showed that the network was specific sensitive to NH3gas in the environment and not affected by the amount of ambient air.

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Green synthesis of iron oxide nanoparticles (Fe₂O₃) using saffron extract

Al-Husseini

Sih

Al-Araji

2021

J. Phys.: Conf. Ser.

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In this study, iron oxide nanoparticles were prepared using saffron plant extract, and the prepared particles were diagnosed using X-ray diffraction (XRD), scanning electron microscopy (SEM), energy-dispersive X-ray resolution (EDX), infrared spectroscopy (FTIR) and ultraviolet-visible spectroscopy (UV–Vis). This method falls within the green chemistry, an environmentally friendly method and at a lower cost than other methods

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