Carbon Nanotube Reinforced Natural Rubber Nanocomposite as a Stretchable Electronic Material

Rahman, Mohammad Jellur; Hossain, Md. Forhad; Islam, Md. Johurul; Mieno, Tetsu; Chowdhury, M. N.

doi:10.1007/s11665-022-07488-8

Cited by 5 publications

(4 citation statements)

References 29 publications

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“…From the smooth surfaces of FGCZ nanocomposites, it is foreseeable that the nanofillers are completely encapsulated by the FG polymer chains. It may happen due to the ultrasonication of the nanocomposite to make the nanofillers deeply embedded and homogeneously dispersed into the matrix . The ruptured surface of the 0.00% FGCZ is found to be smooth as illustrated in Figure e, and in the case of the other nanocomposites in the ruptured surface, CNTs are clearly visible as shown in Figure f–h.…”

Section: Resultsmentioning

confidence: 91%

Fish Gelatin Reinforced with Carbon Nanotubes and ZnO Nanorods for Wearable Smart Technologies

Mustakim,

Kalam,

Mieno

et al. 2024

ACS Appl. Nano Mater.

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This study presents a comprehensive analysis of a ternary nanocomposite of carbon nanotube (CNT) and ZnOnanorod (ZNR)-reinforced fish gelatin (FG), assessing its potential applications for wearable smart technology. The nanocomposite is prepared by the solution casting method by varying concentrations of nanofillers (0.00, 0.20, 0.25, and 0.30%), where individual nanofillers are taken in the same concentration and analyzed by different characterization techniques to comprehend their interaction. Regarding nanofillers, nearly perfect graphitized CNTs of minimum defects and ZNRs with a high degree of crystallinity with an interlayer spacing of 0.233 nm are used and encapsulation of the nanofillers by the FG matrix is observed. The crystallinity is increased with the initial incorporation of nanofillers but interestingly decreases with higher concentrations. Amide bands are identified with peak shifting, suggesting enhanced interactions between nanofillers and the FG matrix. With the increase in nanofiller concentration, the effects on thermal stability of the nanocomposites and shifting in glass transition and melting temperatures are also investigated. The incorporation of nanofillers significantly improved the mechanical and electrical properties. This study would help to understand the influence of nanofillers in tailoring the properties of nanocomposite, offering opportunities to tune their properties and explore applications in wearable smart technology.

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Section: Resultsmentioning

confidence: 91%

Fish Gelatin Reinforced with Carbon Nanotubes and ZnO Nanorods for Wearable Smart Technologies

Mustakim,

Kalam,

Mieno

et al. 2024

ACS Appl. Nano Mater.

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“…Carbon nanotubes (CNT) and nanocomposite graphene-based smart materials for supercapacitors, electrodes, and electronic implementations [212][213][214][215][216][217][218] AI calibrating technological precision regarding sensitivity response…”

Section: Carbon-based Materialsmentioning

confidence: 99%

“…The research advances in micro-nano electronics using innovative polymer-based materials are mainly in flexible electronics [182][183][184][185][186][187][188][189][190][191][192][193][194][195][196][197][198][199][200], the synthesis of new materials having enhanced electrical properties [201][202][203][204][205][206][207][208][209][210][211][212][213][214][215][216][217][218], micro-/nanocircuits [219][220][221][222][223][224][225][226][227], and electronic components [228][229]…”

mentioning

confidence: 99%

“…The realization of new materials in electronics includes the implementation of liquid materials [201][202][203][204], mechanical integrated electronic materials [205], smart materials [206][207][208][209][210][211] (magnetorheological fluids, piezoelectric micro actuators, shape memory alloys), carbon-based materials [212][213][214][215][216][217][218] (such as carbon nanotubes (CNTs) and graphene-based materials exhibiting strong electrical properties). The new goals of the research could be to apply AI to enable the control of fluidity and of conductivity, switching circuit logics, the control of material detection (NP movement/orientation, NP activation), and the calibration of circuit sensitivity.…”

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confidence: 99%

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Intelligent Materials and Nanomaterials Improving Physical Properties and Control Oriented on Electronic Implementations

Massaro

2023

Electronics

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The review highlights possible research topics matching the experimental physics of matter with advances in electronics to improve the intelligent design and control of innovative smart materials. Specifically, following the European research guidelines of Key Enabling Technologies (KETs), I propose different topics suitable for project proposals and research, including advances in nanomaterials, nanocomposite materials, nanotechnology, and artificial intelligence (AI), with a focus on electronics implementation. The paper provides a new research framework addressing the study of AI driving electronic systems and design procedures to determine the physical properties of versatile materials and to control dynamically the material’s “self-reaction” when applying external stimuli. The proposed research framework allows one to ideate new circuital solutions to be integrated in intelligent embedded systems formed of materials, algorithms and circuits. The challenge of the review is to bring together different research concepts and topics regarding innovative materials to provide a research direction for possible AI applications. The discussed research topics are classified as Technology Readiness Levels (TRL) 1 and 2.

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Synergistic effect of hybrid fillers on the thermal degradation of natural rubber: stability and kinetic studies

Abhisha,

‬Sisanth,

Selvin Thomas

et al. 2024

Polym. Bull.

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Carbon Nanotube Reinforced Natural Rubber Nanocomposite as a Stretchable Electronic Material

Cited by 5 publications

References 29 publications

Fish Gelatin Reinforced with Carbon Nanotubes and ZnO Nanorods for Wearable Smart Technologies

Fish Gelatin Reinforced with Carbon Nanotubes and ZnO Nanorods for Wearable Smart Technologies

Intelligent Materials and Nanomaterials Improving Physical Properties and Control Oriented on Electronic Implementations

Synergistic effect of hybrid fillers on the thermal degradation of natural rubber: stability and kinetic studies

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