Simultaneous numerical investigation of the passive use of phase-change materials and the active use of a nanofluid inside a rectangular duct in the thermal management of lithium-ion batteries

Jiang, Yu; Smaisim, Ghassan Fadhil; Mahmoud, Mustafa Z.; Li, Zhixiong; Aybar, Hikmet Ş.; Abed, Azher M.

doi:10.1016/j.jpowsour.2022.231610

Cited by 36 publications

(6 citation statements)

References 71 publications

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“…[42][43][44][45][46][47] Increasing nano-reinforcements improves ground phase properties compared to large-scale reinforcements. [48][49][50][51] These features include:…”

Section: Introductionmentioning

confidence: 99%

A review: studying the effect of graphene nanoparticles on mechanical, physical and thermal properties of polylactic acid polymer

2023

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“…[42][43][44][45][46][47] Increasing nano-reinforcements improves ground phase properties compared to large-scale reinforcements. [48][49][50][51] These features include:…”

Section: Introductionmentioning

confidence: 99%

A review: studying the effect of graphene nanoparticles on mechanical, physical and thermal properties of polylactic acid polymer

2023

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“…Changes in light coefficient is assessed using visible-ultraviolet spectroscopy. This assay is additionally cherishing the ELISA method but requires minimal sample preparation and purification (Jiang et al, 2022;Tian et al, 2022;Alharbi et al, 2022;Wu et al, 2022;Tian et al, 2022). for instance, silver and gold nanoparticles have strong light absorption and, following aggregation, produce an appropriate optical signal for evaluation (Alshetaili et al, 2018;Alwan et al, 2021;Zharif et al, 2018;Salimi et al, 2017a).…”

Section: Nanoparticle Aggregation Assaysmentioning

confidence: 99%

Application of nano-antibiotics in the diagnosis and treatment of infectious diseases

Al-Awsi¹,

Alameri

Al-Dhalimy

et al. 2024

Braz. J. Biol.

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Infectious diseases are the leading cause of death worldwide. Thus, nanotechnology provides an excellent opportunity to treat drug-resistant microbial infections. Numerous antibiotics have been used to inhibit the growth and kill of microbes, but the development of resistance and the emergence of side effects have severely limited the use of these agents. Due to the development of the nanotechnology, nanoparticles are widely used as antimicrobials. Silver and chitosan nanoparticles have antifungal, antiviral and antibacterial properties, and many studies confirm the antifungal properties of silver nanoparticles. Nowadays, the use of nanoparticles in the diagnosis and treatment of infectious diseases has developed due to less side effects and also the help of these particles in effective drug delivery to the target tissue. Liposomes are also used as carriers of drug delivery, genes, and modeling of cell membranes in both animals and humans. The ability of these liposomes to encapsulate large amounts of drugs, minimize unwanted side effects, high effectiveness and low toxicity has attracted the interest of researchers. This review article examines recent efforts by researchers to identify and treat infectious diseases using antimicrobial nanoparticles and drug nano-carriers.

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“…In this method, the formation of biofilms or microbial processes is reduced by changing the surface of the polymer. For this purpose, acrylic acid is bonded to the polyurethane layers by heat or plasma, thus reducing bacterial adhesion from 5% to 1% (Alharbi et al, 2022;Hussien et al, 2018;Zaid, 2019;Jiang et al, 2022). Therefore, by changing the surface energy and creating acidic factors on the surface, the connection of microbes to the surface is prevented.…”

Section: Modified Compounds To Reduce Prevent Microbial Growth and Bi...mentioning

confidence: 99%

Antimicrobial finishing of textiles using nanomaterials

Abdul-Reda Hussein,

Mahmoud,

Alaziz

et al. 2024

Braz. J. Biol.

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Metals, such as copper and silver, can be extremely toxic to bacteria at exceptionally low concentrations. Because of this biocidal activity, metals have been widely used as antimicrobial agents in a multitude of applications related with agriculture, healthcare, and the industry in general. A large number of microorganisms live in the human environment. if the balance of these creatures in nature is disturbed, the health of the individual and society will be threatened due to the production and emission of unpleasant odors and the reduction of health standards. The presence of microorganisms on textiles can cause adverse effects such as discoloration or staining on textiles, decomposition of fibrous materials, reduced strength, and eventually decay of textiles. Most fibers and polymers do not show resistance to the effects of microbes and by providing growth factors for microorganisms such as the right temperature and humidity, nutrients from sweat and fat from skin glands, dead skin cells as well as materials used in the stage of finishing the textiles causes the rapid growth and spread of various microbes. With the advent of nanotechnology, various industries and human daily life underwent changes. In recent years, increasing research on nanoparticles has led to the production of textiles with greater efficiency and added value. These modified textiles prevent the spread of unpleasant odors, the spread, and transmission of diseases. This article reviews the basics and principles of antimicrobial tetiles, as well as a brief overview of antimicrobial materials and nanostructures with antimicrobial properties.

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Simultaneous numerical investigation of the passive use of phase-change materials and the active use of a nanofluid inside a rectangular duct in the thermal management of lithium-ion batteries

Cited by 36 publications

References 71 publications

A review: studying the effect of graphene nanoparticles on mechanical, physical and thermal properties of polylactic acid polymer

A review: studying the effect of graphene nanoparticles on mechanical, physical and thermal properties of polylactic acid polymer

Application of nano-antibiotics in the diagnosis and treatment of infectious diseases

Antimicrobial finishing of textiles using nanomaterials

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