During the past decade, researchers investigated the incorporation of carbon nanotubes
(CNTs) as a reinforcement for cementitious materials to achieve multifunctional properties …

In the last decade, significant developments of flexible and stretchable force sensors have
been witnessed in order to satisfy the demand of several applications in robotic, prosthetics …

In recent years, nanocomposites based on various nano-scale carbon fillers, such as carbon
nanotubes (CNTs), are increasingly being thought of as a realistic alternative to …

Extensive numerical simulation and experimental measurements have been conducted to
understand the effects of processing parameters and material properties on sensor …

A two-step analytical electrical conductivity method is adopted to calculate the effective
electrical conductivity of the carbon fiber (CF)-carbon nanotube (CNT)-polymer hybrid …

Computer simulations are an important implementation to experimental methods working on
polymer nanocomposites (PNCs), which have advanced properties because of their unique …

Touch-sensitive stretchable electronic skins (e-skins) hold promise for soft robots,
prosthetics, bio-mimetics, and bio-sensors. However, a long-standing challenge has been …

The remarkable electrical and mechanical properties of carbon nanotubes (CNTs) render
CNT-reinforced nanocomposites as potentially attractive materials for strain-sensing and …

Motivated by the impact of electromagnetic radiation on electronic gadgets and living
beings, herein we developed a light weight flexible EMI shielding material to meet the …

High performance strain sensors were achieved featuring simple, low-cost construction
involving the screen printing of combinations of multi-walled carbon nanotube and graphene …