Nurrafiqah Mokhtar scite author profile

Nurrafiqah Mokhtar

5Publications

8Citation Statements Received

80Citation Statements Given

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143

Affiliations

University of Malaya

Publications

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Microwave Absorption Properties of Polyaniline/Titanium Dioxide (PAni/TiO₂) Doped with Different Types of Fullerenes

Mokhtar

Chye

Ang

2018

Macromolecular Symposia

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In this work, Polyaniline/titanium dioxide (PAni/TiO2) nanocomposites without and with addition of fullerene such as pristine fullerene (C60) and small gap fullerene (S.G.F) were prepared through template‐free method by using hexanoic acid (HA) as a dopant. FTIR and UV‐Vis spectra confirmed the chemical structure of conjugated PAni and indicated that the resulted PAni is in conducting state. The existence of fillers in PAni nanocomposites were confirmed by the characteristic peaks of TiO2 and fullerene in XRD pattern. Based on FESEM images obtained, nanocomposites formulated with C60 (PAni/HA/TiO2/C60) formed the nanorods/nanotubes and microrods/microtubes with the biggest diameter (240 nm), followed by PAni with S.G.F (PAni/HA/TiO2/S.G.F) and PAni without the addition of fullerene (PAni/HA/TiO2) with diameter of 180 nm and 160 nm, respectively. Besides, PAni/HA/TiO2/C60 also possessed the highest electrical conductivity of 1.708 × 10−1 S/cm as compared to PAni/HA/TiO2/S.G.F and PAni/HA/TiO2 (4.531 × 10−3 S/cm to 1.439 × 10−2 S/cm). Microwave absorption studies of PAni nanocomposites were carried out by using Microwave Vector Network Analyzer (MVNA) in the frequency range of 0.5–18.0 GHz. Among all nanocomposites, PAni/HA/TiO2/C60 exhibited a narrow and the highest reflection loss (RL) peak of −61.3 dB at 9 GHz due to the highest conductivity (1.708 × 10−1 S/cm), dielectric permittivity (0.46) and heterogeneity of PAni (larger amount of nanorods/nanotubes and microrods/microtubes) that have induced more disordered motion of charge carrier along the backbone of PAni. Thus, it eventually enhanced the molecular polarization such as greater space charge relaxation and hopping of confined charges.

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Morphology, Conductivity and Microwave Absorption Behavior of Polyaniline Nanocomposites after Chemical Treatment

Mokhtar

Chye

Phang

2017

Polymers and Polymer Composites

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In this study, the hexanoic acid (HA) doped Polyaniline (PAni) nanocomposites which comprise aniline (Ani) as a monomer, titanium dioxide (TiO2) as a dielectric material and fullerene (C60) as a carbonaceous material with and without treated with different types of sulfonic groups: dioctyl sodium sulfosuccinate (AOT), sodium dodecylbenzene sulfonicate (DBSA) and camphorsulfonic acid (CSA) were synthesized through the template-free method. The fourier transform infrared (FTIR), ultraviolet-visible (UV-vis), x-ray diffraction (XRD) and thermal gravimetric analysis (TGA) characterization of PAni nanocomposites validated the functional groups, conducting behavior, existing of an inorganic material and thermal stability of PAni nanocomposites, respectively. Besides, an increment of electrical conductivities of the PAni nanocomposites from 3.655 × 10−2 S/cm (without chemical treatment) to 5.433 × 10−2 – 1.708 × 10−1 S/cm (after chemical treatment) was obtained by the four-point probe method. This increment can be explained by the formation of nanorods/nanotubes via field emission scanning electron microscope (FESEM). Based on the data obtained from the microwave vector network analyzer (MVNA), the PAni/HA/TiO2/C60 nanocomposites (treated with CSA) revealed a narrow and sharp reflection loss (RL) peak with high absorption (−61.3 dB) due to its highest conductivity, dielectric permittivity and heterogeneity which eventually enhanced the microwave absorption properties, while those without chemical treatment showed a broad RL peak with poor absorption (−37.2 dB). Based on the researchers’ knowledge, the PAni/HA/TiO2/C60 nanocomposites with a chemical treatment that shows a good absorption is the first being reported here.

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Effect of microwave absorption study on polyaniline nanocomposites with untreated and treated double wall carbon nanotubes

2016

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Hexanoic acid (HA) doped polyaniline (PAni) nanocomposites which consist of different contents of untreated double wall carbon nanotubes (u‐DWNT) and carboxyl treated DWNT (c‐DWNT) with titanium dioxide nanoparticles were successfully prepared using template‐free method. Fourier transform infrared, ultraviolet‐visible and X‐ray diffractometer spectra clearly confirmed the chemical structure of PAni nanocomposites. Thermal stability, morphology, conductivity, magnetic properties and reflection loss of PAni nanocomposites were characterized by thermogravimetric analyzer, field emission scanning electron microscope, four‐point probe, vibrating sample magnetometer and microwave vector network analyzer, respectively. From this study, it is shown that electrical conductivity of PAni nanocomposites with u‐DWNT possessed higher conductivity (1.23 × 10–1 to 1.31 × 100 S/cm) compared to c‐DWNT (3.43 × 10–2 to 4.48 × 10–1S/cm). PAni/HA/TiO2/DWNT nanocomposites with 20% of c‐DWNT have been covered by PAni layers to form the highest amount of nanorods/nanotubes. Hence, it shows high heterogeneity that will enhance the dielectric permittivity and contribute to a more disordered motion of charge carriers along the PAni backbone. Therefore, it will eventually contribute to good microwave absorption and potentially apply as an efficient electromagnetic interference shielding material in cell phones. POLYM. COMPOS., 39:1283–1291, 2018. © 2016 Society of Plastics Engineers

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Microwave absorption properties of polyaniline (PAni) with various amount of carbonaceous material (CM)

et al. 2020

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Microwave Absorption Study of Polyaniline Nanocomposites with Different Dimension of Multiwalled Carbon Nanotubes

Koh

Mokhtar

Phang

2016

MSF

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Polyaniline (PAni) Nanocomposites Containinganiline (Ani) Monomer and Hexanoic Acid (HA) Dopant were Successfullysynthesized by Using Chemical Oxidation Method. Titanium Dioxide (TiO2)and Different Dimension of Multiwall Carbon Nanotubes (MWNT) Have been Added Inorder to Improve the Dielectric Permeability and Magnetic Permittivityproperties of the Pani Nanocomposites. Fourier Transform Infrared (FTIR) Andultraviolet-Visible (UV-Vis) Spectra Confirmed the Chemical Structure of Paninanocomposites. Conductivity and Magnetization Behavior were Investigated Byresistivity Meter and Vibrating Sample Magnetometer (VSM). Microwave Absorptionstudies were Carried out by Microwave Vector Network Analyzer (MVNA) from 0.5to 18 Ghz. among all the Pani Nanocomposites, Pani Nanocomposites with MWNT (D = 10-2- Nm, l = 5-15 μm) Shows Agood Reflection Loss (RL = -58 Db) at 7 Ghz with a Sharp and Narrow Peak due Tohigher Values of Magnetization (0.074 Emu/g) Andmoderate Electrical Conductivity (1.11 x 10-2 S/cm)

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