Similar to the structures such as the cornea and iris that capture and focus light onto the retina, the skin's elasticity distributes tactile signals to sensory receptors throughout the skin.

A new publication from Opto-Electronic Advances; DOI 10.29026/oea.2025.240152, discusses how multi-photon bionic skin realizes high-precision haptic visualization for reconstructive perception.

Researchers at Beijing Institute of Nanoenergy and Nanosystems and Tsinghua University recently developed a new multi-receptor ... in an artificial skin that combines both tactile and tele ...

Fig. 1. Design and fabrication of a multiphoton neuron tactile skin. (a) The design concept and spatial reconstruction workflow of the multiphotonic neuron haptic skin for simulating the tactile ...

As for the output, no vibromotors or actuators are in use – instead, tactile receptors are stimulated by passing small amounts of current through your skin, triggering your touch receptors ...

where electrodes stimulate tactile receptors beneath the skin, giving the wearer the sensation of touching an object. This allows you to accurately determine the shape and position of an electric ...

As for the output, no vibromotors or actuators are in use – instead, tactile receptors are stimulated by passing small amounts of current through your skin, triggering your touch receptors ...

A rough illustration of the team’s multi-receptor ... receives tactile signals. Meanwhile, electrostatic induction (also known as “tele-perception”) allows the artificial skin to note ...

"Their spatial arrangement closely mimics the distribution of tactile receptor cells within human skin," Zhang added. The sensors amass signals that are meticulously processed and subsequently ...

"Their spatial arrangement closely mimics the distribution of tactile receptor cells within human skin." The sensors amass signals that are processed and then refined through deep learning ...