Bio-based graphene/sodium alginate aerogels for strain sensors

Abstract: Highly flexible strain sensors based on graphene aerogels (GAs) have been widely researched. However, most GAs are often found to be extremely weak and delicate to handle due to the π-π stacking and van der Waals interactions between adjacent graphene sheets that leads to a brittle skeleton. Thus constructing graphene structures with excellent mechanical properties, high sensitivity and effective conductive networks is still a big challenge. In this work, we fabricate a bio-based graphene/sodium alginate aerog… Show more

“…Unlike the monotonous response pattern of other CPC foams, an obvious deflection point was observed in both the compression and releasing processes during the cyclic compression. 61,62 For the first cycle, the resistance variation in the compression process displays a similar tendency to the result displayed in Fig. 9(c) due to the destruction of the cell structure.…”

Lightweight conductive graphene/thermoplastic polyurethane foams with ultrahigh compressibility for piezoresistive sensing

“…Unlike the monotonous response pattern of other CPC foams, an obvious deflection point was observed in both the compression and releasing processes during the cyclic compression. 61,62 For the first cycle, the resistance variation in the compression process displays a similar tendency to the result displayed in Fig. 9(c) due to the destruction of the cell structure.…”

Lightweight conductive graphene/thermoplastic polyurethane foams with ultrahigh compressibility for piezoresistive sensing

“…The field of wearable and stretchable electronics pushes towards unusual material arrangements to design circuitries on curvilinear and deformable structures/organisms, and fabricate soft electrical devices and sensors [71,[94][95][96][97]. The junction of a pliable and elastomeric material with a conductive nanomaterial is a favorable approach to build compliant nanocomposites for electronics [98][99][100]. Sensor technologies exploit conductivity and capacitance fluctuations recorded when such nanocomposites are deformed (stretched, wrapped, or compressed).…”

Graphene Nanoplatelets-Based Advanced Materials and Recent Progress in Sustainable Applications

“…The rheological properties of the cross-linked and uncross-linked samples before freezedrying have been determined using an automated rheometer (MCR 301, Anton Paar) with a 49 mm cone and plate xture. The density and porosity of the obtained scaffolds were calculated using the following equations: 23…”

Advancing fabrication and properties of three-dimensional graphene–alginate scaffolds for application in neural tissue engineering