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Preparation and Application of Polymer Nanocomposites
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This reprint focuses on the preparation of polymer nanocomposites for various fields, such as structural, electronic, sensing, energy harvesting, and biomedical applications. A wide variety of matrices have been considered, such as polymer-modified asphalt, ultra-high molecular weight polyethylene, polymethyl methacrylate, polydimethylsiloxane elastomer, polyvinylidene fluoride, polyvinyl amide, poly(e-caloprolactone), and ureasyl polyether. The results corroborate that incorporating nanomaterials into polymeric matrices facilitates developing advanced materials with improved properties. Issues such as filler‒matrix interactions, molecular organization and rearrangement, size-dependent functionality, etc., are addressed in detail. Advanced nanosensing, nanofabrication, and nanocharacterization procedures are advantageously applied.
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Keywords
- atomic force microscopy
- Bioactivity
- borpolymer
- breakdown strength
- capacitive pressure sensor
- chemical synthesis
- CuO nanostructures
- dielectric properties
- e-beam lithography
- electro-spun carbon nanofibers (ESCNFs)
- electrospinning
- fiber composite
- human U-2 OS cell line
- medicine
- Medicine: General Issues
- multi-walled carbon nanotubes (MWCNTs)
- n/a
- nano-montmorillonite
- nanomaterials
- organic-inorganic hybrid films
- PA
- PMMA
- poly(ε-caprolactone) (PCL)
- polymer composite materials
- polymer nanocomposites
- polymer-modified asphalt
- polymethylene-p-triphenyl ester of boric acid
- porous polydimethylsiloxane
- Public health & preventive medicine
- PVDF
- Raman microspectroscopy
- resist process engineering
- rheological properties
- sol-gel
- solid insulation dielectrics
- storage stability
- stress-sensitive
- TENG
- thickness effect
- triboelectric effect
- ultra-high molecular weight polyethylene
- ultrasonic force microscopy
- wearable electronic
- X-ray fluorescence
- zinc oxide nanowire