6533b82bfe1ef96bd128ce7d
RESEARCH PRODUCT
Real time polymer nanocomposites-based physical nanosensors: theory and modeling.
Tamara Lobanova-shuninaYuri F. ZhukovskiiYuri ShuninYuri ShuninN. BurlutskayaStefano BellucciV. I. Gopeyenkosubject
Materials scienceNanocompositePolymer nanocompositeMechanical EngineeringBioengineeringNanotechnologyGeneral ChemistryDielectricEpoxyCarbon nanotubeConductivity01 natural sciences010305 fluids & plasmaslaw.inventionMechanics of MaterialsNanosensorlawvisual_art0103 physical sciencesvisual_art.visual_art_mediumGeneral Materials ScienceElectrical and Electronic Engineering010306 general physicsGraphene nanoribbonsdescription
Functionalized carbon nanotubes and graphene nanoribbons nanostructures, serving as the basis for the creation of physical pressure and temperature nanosensors, are considered as tools for ecological monitoring and medical applications. Fragments of nanocarbon inclusions with different morphologies, presenting a disordered system, are regarded as models for nanocomposite materials based on carbon nanoсluster suspension in dielectric polymer environments (e.g., epoxy resins). We have formulated the approach of conductivity calculations for carbon-based polymer nanocomposites using the effective media cluster approach, disordered systems theory and conductivity mechanisms analysis, and obtained the calibration dependences. Providing a proper description of electric responses in nanosensoring systems, we demonstrate the implementation of advanced simulation models suitable for real time control nanosystems. We also consider the prospects and prototypes of the proposed physical nanosensor models providing the comparisons with experimental calibration dependences.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2017-07-26 | Nanotechnology |