Recent advances in carbon-based polymer nanocomposites for electromagnetic interference shielding
Carbon-based nanoparticles have recently generated a great attention, as they could create
polymer nanocomposites with enhanced transport properties, overcoming some limitations …
polymer nanocomposites with enhanced transport properties, overcoming some limitations …
Stretchable, skin‐mountable, and wearable strain sensors and their potential applications: a review
There is a growing demand for flexible and soft electronic devices. In particular, stretchable,
skin‐mountable, and wearable strain sensors are needed for several potential applications …
skin‐mountable, and wearable strain sensors are needed for several potential applications …
Upcycling polystyrene
Several environmental and techno-economic assessments highlighted the advantage of
placing polystyrene-based materials in a circular loop, from production to waste generation …
placing polystyrene-based materials in a circular loop, from production to waste generation …
Predicting effective electrical resistivity and conductivity of carbon nanotube/carbon black-filled polymer matrix hybrid nanocomposites
A two-step analytical model based on a percolation network model and electron tunneling
theory has been developed to predict the electrical resistivity and percolation threshold of a …
theory has been developed to predict the electrical resistivity and percolation threshold of a …
[HTML][HTML] Analytical formulation for electrical conductivity and percolation threshold of epoxy multiscale nanocomposites reinforced with chopped carbon fibers and …
Electrical conductivity (EC) and percolation threshold of chopped carbon fiber (CF)-carbon
nanotube (CNT)-reinforced epoxy multiscale nanocomposites considering tunneling …
nanotube (CNT)-reinforced epoxy multiscale nanocomposites considering tunneling …
[HTML][HTML] Highly stretchable strain sensors based on graphene nanoplatelet-doped ecoflex for biomedical purposes
Ultrasensitive and highly stretchable strain sensors based on graphene nanoplatelet (GNP)
doped Ecoflex are proposed. First, the electrical and electromechanical properties are …
doped Ecoflex are proposed. First, the electrical and electromechanical properties are …
A novel temperature-dependent percolation model for the electrical conductivity and piezoresistive sensitivity of carbon nanotube-filled nanocomposites
Monte Carlo simulation is paired with a percolation model to analytically investigate the
temperature effect and carbon nanotube (CNT) dispersion state on the temperature …
temperature effect and carbon nanotube (CNT) dispersion state on the temperature …
Anisotropic electrical conductivity of polymer composites with aligned carbon nanotubes
This paper studies the effect of carbon nanotube (CNT) alignment on anisotropy of electrical
conductivity of CNT enhanced polymer composites. A new CNT percolation network model …
conductivity of CNT enhanced polymer composites. A new CNT percolation network model …
Carbon nanotube agglomeration effect on piezoresistivity of polymer nanocomposites
Carbon nanotube (CNT) agglomeration exists inevitably in all CNT-polymer composites.
This paper quantified the effect of CNT agglomeration on the piezoresistivity of CNT-polymer …
This paper quantified the effect of CNT agglomeration on the piezoresistivity of CNT-polymer …
Calculating the electrical conductivity of graphene nanoplatelet polymer composites by a Monte Carlo method
Electrical conductivity is one of several outstanding features of graphene–polymer
nanocomposites, but calculations of this property require the intricate features of the …
nanocomposites, but calculations of this property require the intricate features of the …