Synthesis and Characterization of Reduced Graphene Oxide/ Polyaniline/Au Nanoparticles Hybrid Material for Energy Applications

Menchaca‐Campos, Carmina; Pereyra-Laguna, Elsa; García‐Pérez, César; Flores-Dominguez, Miriam; García-Sánchez, Miguel A.; Uruchurtu-Chavarı́n, J.

doi:10.5772/intechopen.77385

Cited by 6 publications

(2 citation statements)

References 26 publications

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“…The XRD patterns of GO and rGO have been shown in Figure 3. It shows the intense peak (001) at 2θ = 11.35° with d = 7.69 Å, which is the characteristic peak of GO, and it is attributed to the intermingling of water molecules and the production of oxygen functional groups such as epoxy, hydroxyl, and carboxyl attached to carbon layers during strong oxidation 68,69 . The small peak observed at 2θ = 42.5° (100) is related to GO, and the peak observed at 2θ = 54.5° (004) is related to graphite and shows that small amounts of graphite phases are still present 54 .…”

Section: Resultsmentioning

confidence: 99%

Synthesis and characterization of new Ce doped‐semiconductor nanocomposite with high specific capacitance

Hashemibagha,

Alemi,

Tadjarodi

2024

Applied Organom Chemis

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In this study, we introduce an effective strategy to prepare electrodes containing new nanocomposites with high specific capacity. This research led to the preparation of CoFe2‐xCexO4/rGO‐Pani nanocomposite with an extraordinary specific capacitance of 3257.83 F·g−1 (at 10 mV·s−1), a power density of 349.951 W/kg, and an energy density of 3.52 Wh/kg. Also, electrical conductivity studies for new nanocomposite showed good electrical conductivity and better semiconducting properties compared with its similar compounds. Also, the synthesized compounds were characterized and identified by other analyses. FT‐IR analysis for reduced graphene oxide showed that graphene oxide was well reduced. It also confirmed the presence of Ce‐O for both CoFe2‐xCexO4/rGO‐Pani and CoFe2O4‐CeO2/rGO‐Pani magnetic nanocomposites. XRD analysis confirmed the crystal structure for rGO, CoFe2‐xCexO4/rGO‐Pani, and CoFe2O4‐CeO2/rGO‐Pani. VSM analysis was done to check the magnetic properties of the nanocomposite, and the magnetic values were measured as expected. In the following, morphological studies and the uniformity of distribution of elements in magnetic nanocomposite were carried out with FE‐SEM and Map, respectively.

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Section: Resultsmentioning

confidence: 99%

Synthesis and characterization of new Ce doped‐semiconductor nanocomposite with high specific capacitance

Hashemibagha,

Alemi,

Tadjarodi

2024

Applied Organom Chemis

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“…The first band is attributed to the π–π* transition of a C-C aromatic bond, while the second absorption band is due to the formation of the polaron or bipolaron states for charged defects in the polyaniline [ 32 , 33 ]. The GO spectrum shows two typical signals around 235 and 310 nm −1 , corresponding to π–π* transitions of C=C and n-π* transitions of C=O respectively [ 34 ]. The typical GO signal at 235 nm −1 does not appear in the PG1 material, which is attributed to the low GO loading, while in the PG5, material a small signal at that wavelength can be seen.…”

Section: Resultsmentioning

confidence: 99%

Effect of Graphene Oxide Addition on the Properties of Electrochemically Synthesized Polyaniline–Graphene Oxide Films

Balboa-Palomino,

Páramo-García,

Melo-Banda

et al. 2024

Polymers

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In this work, the electrochemical synthesis of PANI and GO-modified PANI was performed using cyclic voltammetry, varying the amount of GO, 1 mg (PG1), 5 mg (PG5), and 10 mg (PG10) to analyze the effect of the amount of GO on the composite. PANI, PG1, PG5, and PG10 materials were characterized using optical microscopy, SEM, UV-vis, FTIR, Raman, and wettability. A stability test was also carried out by putting the materials to 500 oxidation-reduction cycles using cyclic voltammetry. The synthesis method allowed GO in PANI to be added through a chemical interaction between the two compounds. It was also found that the addition of GO led to an improvement in the hydrophilic character of the composite, which would lead to an improvement in the diffusion of reagents/species when the composites are used in aqueous media processes. The results of the stability test showed that the PG10 material presented a lower % loss of specific capacitance and energy compared with the other materials, which indicates that the GO presence (in the amount specified) improves the stability of the PANI. The PG10 material showed favorable and promising conditions for its use in fuel cell and battery processes.

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Structural and Electrical Properties of Graphene Oxide/Nickel Oxide Based Polymer Nanocomposite

Taib

Ibrahim

Rozali

2021

Lecture Notes in Mechanical Engineering

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Synthesis and Characterization of Reduced Graphene Oxide/ Polyaniline/Au Nanoparticles Hybrid Material for Energy Applications

Cited by 6 publications

References 26 publications

Synthesis and characterization of new Ce doped‐semiconductor nanocomposite with high specific capacitance

Synthesis and characterization of new Ce doped‐semiconductor nanocomposite with high specific capacitance

Effect of Graphene Oxide Addition on the Properties of Electrochemically Synthesized Polyaniline–Graphene Oxide Films

Structural and Electrical Properties of Graphene Oxide/Nickel Oxide Based Polymer Nanocomposite

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