Fengjiao Zhang

TL;DR: This review focuses on the fundamentals of flexible pressure sensors, and subsequently on several critical concepts for the exploration of functional materials and optimization of sensing devices toward practical applications.

TL;DR: Four-probe measurements show that the room temperature conductivity of this material can reach up to 1,580 S cm−1, which is the highest value ever reported for coordination polymers, and it displays ambipolar charge transport behaviour and extremely high electron and hole mobilities under field-effect modulation.

TL;DR: Flexible suspended gate organic thin-film transistors (SGOTFTs) are presented as a model platform that enables ultra-sensitive pressure detection and their excellent sensing properties, together with their advantages of facile large-area fabrication and versatility in detecting various pressure signals, make them a powerful strategy for spatial pressure mapping in practical applications.

TL;DR: Flexible dual-parameter temperature–pressure sensors based on microstructure-frame-supported organic thermoelectric materials possessing promising applications in e-skin and health-monitoring elements are developed.

TL;DR: Results demonstrate that variation of the alkyl chain branching point is a powerful strategy for tuning of molecular packing to enable high charge transport mobilities.