Analysis of Particle Size in Composite Materials Using Image Processing

Alabdali, Z. N.; Alkalid, F. F.

doi:10.5829/ije.2024.37.04a.01

IJE

2024

DOI: 10.5829/ije.2024.37.04a.01

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Analysis of Particle Size in Composite Materials Using Image Processing

Z. N. Alabdali,

F. F. Alkalid

Abstract: Composite materials are the most important materials in materials science and engineering, which contain two or more materials. In materials engineering, the scanning electron microscopy (SEM) technique is an approach to measure the material's particle size. A new procedure was used instead of SEM is called Artificial Intelligence (AI). Artificial Intelligence (AI) is an interdisciplinary science and branch of computer science that involves solving problems that require human intelligence and capabilities. The… Show more

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2024

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Cited by 2 publications

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“…MOSFETs come in two main types. These devices are of two types namelyn-channel and pchannel (5). These are crucial components of modern electronic gadgets like microprocessors, Random Accessed Memory (RAMs) and power amplifiers.…”

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Design and Performance Analysis of Gate Overlap Dual Material Tunnel Field Effect Transistor

Buttol,

Balaji

2024

IJE

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This study introduces a biosensor employing a dielectric-modulated dual material gate tunnel field effect transistor (DM-DMG TFET) in 10 nanometer technology. To detect diverse bio molecules, the biosensor incorporates a nano gap cavity formed through gate overlap on the drain side. The variation in ambipolar current serves as the sensing parameter, influenced by altering the dielectric constants of immobilized bio molecules within the nano cavity. In this paper, the simulation results of biosensor employing a dielectric-modulated dual material gate tunnel field effect transistor with different dielectric constants imposed in nano cavity. A comprehensive examination of the biosensor's performance is conducted, exploring various positions and filling factors of bio molecules within the nano cavity region. This analysis involves a thorough investigation into the device's performance, considering a range of parameters such as drain current, electric field distribution, variations in surface potential, configurations of energy bands, behaviors of carrier concentration, and the Ion/Ioff ratio. The simulations are done using the Silvaco TCAD Atlas tool.

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confidence: 99%

Design and Performance Analysis of Gate Overlap Dual Material Tunnel Field Effect Transistor

Buttol,

Balaji

2024

IJE

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Effect of the interlayer distribution of ZnO decorated with Ag nanoparticles on the antimicrobial activity of multilayer poly(methyl methacrylate) films

Waldo‐Mendoza,

Rivera‐García,

Robles‐Martínez

et al. 2024

Vinyl Additive Technology

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Incorporating nanoparticles into polymer matrices for enhanced antimicrobial properties is particularly interesting. This study examines how the interlayer distribution of zinc oxide (ZnO) decorated with silver nanoparticles (AgNPs) within poly(methyl methacrylate) (PMMA) films impacts their antimicrobial activity. Various PMMA multilayer films were prepared, with the antimicrobial additive intentionally placed in the outer, core, bottom, or throughout all layers. Their efficacy was tested against gram‐negative (Escherichia coli) and gram‐positive (Staphylococcus aureus) bacteria. Results indicate that E. coli was the strain with the highest sensitivity to the system because it is a gram (−) bacterium, which could generate a lower resistance to AgNPs. On the other hand, S. aureus, being gram (+), presents a thicker lipid membrane, and peptidoglycan wall, which makes it difficult for AgNPs to enter. Films with uniform distribution throughout thickness exhibited the most sustained antimicrobial activity due to high antimicrobial concentration. This study demonstrated that the distribution of the AgNPs/ZnO system in different layers of a PMMA film influences its antimicrobial capacity. Finally, a mechanism for migrating silver ions released from the AgNPs/ZnO system in PMMA films is proposed, highlighting their interactions with bacterial cells and the subsequent antimicrobial effects.Highlights Interlayer distribution influences antimicrobial activity. Outer placement leads to rapid silver ion release. Core distribution controls antimicrobial kinetics. Uniform distribution ensures sustained activity.

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Analysis of Particle Size in Composite Materials Using Image Processing

Cited by 2 publications

References 31 publications

Design and Performance Analysis of Gate Overlap Dual Material Tunnel Field Effect Transistor

Design and Performance Analysis of Gate Overlap Dual Material Tunnel Field Effect Transistor

Effect of the interlayer distribution of ZnO decorated with Ag nanoparticles on the antimicrobial activity of multilayer poly(methyl methacrylate) films

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