Highly Synergistic Sensor of Graphene Electrode Functionalized with Rutile TiO&lt;sub&gt;2&lt;/sub&gt; Microstructures to Detect L-Tryptophan Compound

Wibowo, Dwiprayogo; Malik, Riski Hul Akma; Mustapa, Faizal; Nakai, Toshiko; Maulidiyah, Maulidiyah; Nurdin, Muhammad

doi:10.5650/jos.ess21416

Cited by 10 publications

(2 citation statements)

References 62 publications

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“…Preparation and synthesis of NG were started with graphene oxide powder prepared according to the Hummers method referring to our previous studies (Nurdin et al, 2022;Wibowo et al, 2020). The graphene powder obtained was reduced by hydrothermal addition of nitrogen.…”

Section: Preparation Of N-graphene (Ng)mentioning

confidence: 99%

Thin Film Structured Superior Anode Material Based N-Graphene Supported Coupled NiO/TiO2 Hollow Nanospheres and Their Cyclic Voltammetry Performance

Azis,

Ashari,

Muzakkar

et al. 2023

Preprint

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In this research, we succeeded in designing a new strategy to synthesize a unique thin film structured of nitrogen doped graphene (NGr) composite combined with coupled NiO/TiO2 hollow nanospheres using a synergistic hydrothermal method. The NGr@NiO/TiO2 composite characteristics are demonstrated by several rational characterization techniques such as the morphological shape of NiO/TiO2 hollow nanospheres which are evenly distributed on the surface of N-graphene with particle distribution in the range 79.78-362.13 nm with an average diameter of 130 nm. In addition, the crystal structures of carbon from NGr, NiO, and TiO2 (anatase and rutile) have been confirmed and proven by spectra showing the presence of C-N stretching primary amides (1400 cm− 1), Ni-O stretching (700 cm− 1) and Ti-O-Ti bond (425 cm− 1), respectively. The electrochemical test was carried out by optimizing the performance of cyclic voltammetry (CV) through parameters such as the influence of composition, scan rate, and cycle with the best conditions, namely composite ratio 80:10:10 (wt%), scan rate 50 mV/s, condition stable cycle and also calculated the high specific capacity value of 839.83 F/g. Based on this, it is revealed that NGr@NiO/TiO2 composites can explore the potential and be fully applied in the development of alkaline metal ion (AIB) batteries such as Li/Na/K.

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Section: Preparation Of N-graphene (Ng)mentioning

confidence: 99%

Thin Film Structured Superior Anode Material Based N-Graphene Supported Coupled NiO/TiO2 Hollow Nanospheres and Their Cyclic Voltammetry Performance

Azis,

Ashari,

Muzakkar

et al. 2023

Preprint

Self Cite

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“…Among these techniques, electrochemical methods, specifically cyclic voltammetry (CV) , have gained significant attention due to their rapid response times, exceptional sensitivity, and selectivity 4−6) . These methods provide real-time monitoring and accurate analysis of methylene blue concentrations across diverse matrices 7,8) . Recent advancements in electrochemical sensor performance have been achieved through the integration of advanced nanomaterials.…”

mentioning

confidence: 99%

ZnO-Enhanced Reduced Graphene Oxide Electrodes from Cocoa Shell: Nanoarchitectonics Platform for Photoelectrocatalytic Detection of Methylene Blue

Azis,

Muzakkar,

Nurwahida

et al. 2023

J. Oleo Sci.

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In response to the challenges presented by pollution attributed to methylene blue, researchers have been motivated to develop cost-effective, environmentally friendly techniques for quantification and remediation of this substance. Among these techniques, electrochemical methods, specifically cyclic voltammetry (CV) , have gained significant attention due to their rapid response times, exceptional sensitivity, and selectivity 4−6) . These methods provide real-time monitoring and accurate analysis of methylene blue concentrations across diverse matrices 7,8) . Recent advancements in electrochemical sensor performance have been achieved through the integration of advanced nanomaterials. Among these materials, reduced graphene oxide (rGO) , synthesized from cocoa shell waste,

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Enhancing cyclic voltammetry performance with N-graphene -supported coupled NiO/TiO2 hollow nanospheres as superior anode material

Azis,

Ashari,

Muzakkar

et al. 2024

Chem. Pap.

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Highly Synergistic Sensor of Graphene Electrode Functionalized with Rutile TiO<sub>2</sub> Microstructures to Detect L-Tryptophan Compound

Cited by 10 publications

References 62 publications

Thin Film Structured Superior Anode Material Based N-Graphene Supported Coupled NiO/TiO2 Hollow Nanospheres and Their Cyclic Voltammetry Performance

Thin Film Structured Superior Anode Material Based N-Graphene Supported Coupled NiO/TiO2 Hollow Nanospheres and Their Cyclic Voltammetry Performance

ZnO-Enhanced Reduced Graphene Oxide Electrodes from Cocoa Shell: Nanoarchitectonics Platform for Photoelectrocatalytic Detection of Methylene Blue

Enhancing cyclic voltammetry performance with N-graphene -supported coupled NiO/TiO2 hollow nanospheres as superior anode material

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