Synthesis of Carbon Nanocapsules and Nanotubes Using Fe-Doped Fullerene Nanowhiskers

Kizuka, Tokushi; Miyazawa, Kun’ichi; Matsuura, Daisuke

doi:10.1155/2012/613746

Cited by 4 publications

(3 citation statements)

References 30 publications

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“…Fullerene is also used in the medical area as an antibacterial agent and gas absorbent. It can also be used for the synthesis of carbon nanotubes [14]. Carbon nanotubes, also called cylindrical fullerenes, have long tubes shaped as one-dimensional structures whose ends are capped by fullerenes.…”

Section: Major Derivatives Of Graphenementioning

confidence: 99%

A Review on Properties and Environmental Applications of Graphene and Its Derivative-Based Composites

et al. 2023

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Graphene-based materials have gained a lot of scientific interest in the research era of modern technology, which can be quite flexible. Graphene has become popular as a potential material for the manufacture of a wide range of technologies due to its remarkable electrical, mechanical, and optical traits. Due to these excellent characteristics, the derivatives of graphene can be functionalized in various applications including environmental, medical, electronic, defence applications, and many more. In this review paper, we discussed the different synthesis methods for the extraction of graphene and its derivatives. The different traits of graphene and its derivatives such as structural, mechanical, and optical were also discussed. An extensive literature review on the application of graphene-based composites is presented in this work. We also outlined graphene’s potential in the realm of environmental purification through different techniques such as filtration, adsorption, and photocatalysis. Lastly, the challenges and opportunities of graphene and its derivatives for advanced environmental applications were reported.

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Section: Major Derivatives Of Graphenementioning

confidence: 99%

A Review on Properties and Environmental Applications of Graphene and Its Derivative-Based Composites

et al. 2023

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“…The potential difference caused by corrosion drives galvanic current inside the metallic materials [1]. To decrease corrosion speed, some conventional methods were applied to control surface contact geometry, stabilizing bridge contacting conditions, providing appropriate material composition, and reducing potential when connecting different materials [2,3]. In addition, the material geometry ratio must be manipulated and to dissolute the current density to reduce the rusting speed [4,5].…”

Section: Introductionmentioning

confidence: 99%

Computer Aided Analysis and Prototype Testing of Nanocoated Mechanical Components

Li¹

2015

AMM

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The material defects in automobile industry caused by correction can be found in different components, such as welded and fastened areas in cars and vehicles. The corrosion appears when components with different conducting properties assembled together in electrolyte substances. Different conducted materials show different potentials which will lead corrosion. The corrosion in components can cause many product problems, such as bad quality, less safety, lower energy efficiency, and higher cost. This paper analyzes the rusty mechanism and anti-corrode in regular coating and nanocoating materials via computer-aided simulation and prototype testing. Both computational simulation and sample testing displayed almost equal results that validate the credibility of analytic method proposed in this paper. Keywords: Nanocoating technology, computational simulation, corrosion control, anti-corrosion, computer-aided modeling

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“…The corrosive potential difference moves galvanic current in metallic materials. To slow down rusting process, several traditional methods used are adjusting geometrical surface contacts, maintaining good bridge conditions, keeping proper material composition, and decreasing material potential among different materials [1]. Also the geometrical area ratio of materials should be controlled for dissolution current density to slow down the rusting process [2].…”

Section: Introductionmentioning

confidence: 99%

Computational Simulation and Prototype Testing of Nanocoating on Products in Aerospace Industry

2013

AMR

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The material damages in aerospace industry caused by correction can be detected in many different products including welded and bolted areas in aircraft and jet engines. The corrosion occurs when different conducted materials contact to each other in electrolyte media and different conducted materials present potential difference that causes rusting. The rusting problems in products lead both safety issues and billions of dollar loss in different businesses including aerospace industry. This paper studies the rusting mechanism and anti-corrosive coatings by applying computational simulation and prototype experiment. Both computer-aided analysis and sample testing demonstrated similar results which confirm the feasibility of analytic methodology introduced in this research paper.

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Synthesis of Carbon Nanocapsules and Nanotubes Using Fe-Doped Fullerene Nanowhiskers

Cited by 4 publications

References 30 publications

A Review on Properties and Environmental Applications of Graphene and Its Derivative-Based Composites

A Review on Properties and Environmental Applications of Graphene and Its Derivative-Based Composites

Computer Aided Analysis and Prototype Testing of Nanocoated Mechanical Components

Computational Simulation and Prototype Testing of Nanocoating on Products in Aerospace Industry

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