Flexible Electronic Artificial Skin: Scientists developed an artificial skin which is soft and flexible. They integrated it with the electronics which is stretchable. It will make robots to feel the sense of touch. The scientists from the University of Houston who are in the US improved the new mechanism. They teamed up to make the stretchable electronics. For developing them, they have to follow the procedure which will rely on the materials which are available readily. Researchers wanted to increase the commercial production.
Flexible Electronic Artificial Skin will make Robots to feel the Sense of Touch
Using the silicon-based polymer, they made the composite semiconductors which are stretchable. They named them as the Polydimethylsiloxane (PDMS). To transport the electric current, they used the material. They made this stuff from the tiny nanowires. From the nanowires, they created the solution which will make the solution to stay hard. Using this solution, the content will become hard, and the nanowires will use it to transport the electric current.
Rubber Composite Format
Their primary intention is to create the semiconductor which is in the rubber composite format. Cunjiang Yu who is the assistant professor said that they designed it to permit the electronic components to reserve the functionality even after the material get stretched up to 50 percent.
However, the traditional semiconductors have brittle nature. The stretchable materials made the complicated system using the fragile semiconductors to make the mechanical accommodations.
Yu stated that this process is more complicated and it has less stability than their discovery process. Meanwhile, it is costly. He also added that their strategy contains several advantages. They will use them for making pure fabrication, high-density combination, scalable manufacturing, large strain tolerance and with little cost.
Flexible Electronic Artificial Skin
Artificial skin is just an application. This material is soft, stretchable, bendable, twistable. It will show its impact on the future improvements in the soft wearable electronics. Researchers said that this electronics might add medical implants, health monitors, and human-machine interfaces.
Scientists said that they used this strategy to activate the elastomeric semiconductors. They can enhance the stretchable semiconductors development by percolating the semiconductor nanofibrils into the rubber.
Advancements in Stretchable Electronics
Researchers added that this technology would aid to have the advancement in the stretchable electronics. We can use them in a wide range of applications like making of artificial skins, surgical gloves, and biomedical implants.