Wearable electronic textiles (e‐textiles) have emerged as a transformative technology
revolutionizing healthcare monitoring and communication by seamlessly integrating with the …

To reduce the consumption and waste of energy and materials in industry, construction and
transport, there exists an urgent need to increase the efficiency of infrastructure and …

Graphene nanoplatelets (GNPs) that possess high electrical conductivity and relatively low
cost have been considered to obtain self-sensing capability in cementitious composites …

Piezoelectric biomaterials are intrinsically suitable to convert mechanical energy to electrical
output and achieve electricity generation, in vivo/in vitro real-time monitoring, and sensing in …

Piezoelectric and piezomagnetic layers are known to enhance material properties and
increase load capacity. However, most studies focused on the effects of mechanical and …

As sensors and reinforced concrete materials are coupled and mismatched when the
acoustic emission (AE) technology is used to monitor large civil engineering structures, the …

The safety and durability of concrete structures are prone to damage and result in significant
harm to human society. Hence, monitoring and estimating the states of concrete structures is …

This study presents results from quantum chemical simulations of the synergetic interaction,
electronic structure, and optical properties of calcium-silicate hydrates (CSH) reinforced by …

In this paper, the dependence of the electromechanical properties of graphene-cement
composites on the loading rate is studied by combining experiment and theory. The …

Abstract A 0–3 piezoelectric ceramic-Portland cement (PC) composite with different
compositions was fabricated and investigated with the following components: BZT (40, 50 …