Xuguang Sun

TL;DR: State-of-the-art tactile sensors are reviewed in terms of their diverse sensing mechanisms, design consideration, and material selection, and two major potential applications of tactile sensing systems are discussed in detail.

TL;DR: Three-dimensional (3D) force tactile electronic skin sensor based on CNTs/PDMS nanocomposite with novel double-side rough porous structure exhibited high sensitivity, good consistency and fast response, indicating the capacities in intelligent robot applications.

TL;DR: In this paper, a 6 × 8 flexible piezoresistive tactile sensor array composed of a multi-walled carbon nanotube (MWCNT) and polydimethylsiloxane (PDMS) composite is presented.

TL;DR: In this paper, a large number of research results of tactile sensor devices are systematically reviewed according to different three-dimensional geometric shapes of the microstructures which are grouped into several categories.

TL;DR: A highly sensitive flexible tactile sensor composed of nanocomposites with pyramid and irregularly rough microstructures with varying weight proportions of multi-wall nanotubes and carbon black particles is proposed and a comparison of piezoresistive properties of nanoplastic properties is implemented to demonstrate the potential for applications in electronic skin, human–computer interaction, and physiological detection.