The brain is soft and electronics are stiff, which can make combining the two challenging, such as when neuroscientists implant electrodes to measure brain activity and perhaps deliver tiny jolts of electricity for pain relief or other purposes.
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Courtesy Bao Research Group
A robotic test instrument stretches over a curved surface a nearly transparent, flexible electrode based on a special plastic developed in the lab of Stanford chemical engineer Zhenan Bao.
Chemical engineer Zhenan Bao is trying to change that. For more than a decade, her lab has been working to make electronics soft and flexible so that they feel and operate almost like a second skin. Along the way, the team has started to focus on making brittle plastics that can conduct electricity more elastic.
Now in Science Advances, Baos team describes how they took one such brittle plastic and modified it chemically to make it as bendable as a rubber band, while slightly enhancing its electrical conductivity. The result is a soft, flexible electrode that is compatible with our supple and sensitive nerves.
This flexible electrode opens up many new, exciting possibilities down the road for brain interfaces and other implantable electronics, said Bao, a professor of chemical engineering. Here, we have a new material with uncompromised electrical performance and high stretchability.
The material is still a laboratory prototype, but the team hopes to develop it as part of their long-term focus on creating flexible materials that interface with the human body.
Electrodes are fundamental to electronics. Conducting electricity, these wires carry back and forth signals that allow different components in a device to work together. In our brains, special thread-like fibers called axons play a similar role, transmitting electric impulses between neurons. Baos stretchable plastic is designed to make a more seamless connection between the stiff world of electronics and the flexible organic electrodes in our bodies.
A printed electrode pattern of the new polymer being stretched to several times of its original length (top), and a transparent, highly stretchy electronic skin patch forming an intimate interface with the human skin to potentially measure various biomarkers (bottom). (Image credit: Bao Lab)
One thing about the human brain that a lot of people dont know is that it changes volume throughout the day, says postdoctoral research fellow Yue Wang, the first author on the paper. It swells and deswells. The current generation of electronic implants cant stretch and contract with the brain and make it complicated to maintain a good connection.
If we have an electrode with a similar softness as the brain, it will form a better interface, said Wang.
To create this flexible electrode, the researchers began with a plastic that had two essential qualities: high conductivity and biocompatibility, meaning that it could be safely brought into contact with the human body. But this plastic had a shortcoming: It was very brittle. Stretching it even 5 percent would break it.
As Bao and her team sought to preserve conductivity while adding flexibility, they worked with scientists at the SLAC National Accelerator Laboratory to use a special type of X-ray to study this material at the molecular level. All plastics are polymers; that is, chains of molecules strung together like beads. The plastic in this experiment was actually made up of two different polymers that were tightly wound together. One was the electrical conductor. The other polymer was essential to the process of making the plastic. When these two polymers combined they created a plastic that was like a string of brittle, sphere-like structures. It was conductive, but not flexible.
The researchers hypothesized that if they could find the right molecular additive to separate these two tightly wound polymers, they could prevent this crystallization and give the plastic more stretch. But they had to be careful adding material to a conductor usually weakens its ability to transmit electrical signals.
After testing more than 20 different molecular additives, they finally found one that did the trick. It was a molecule similar to the sort of additives used to thicken soups in industrial kitchens. This additive transformed the plastics chunky and brittle molecular structure into a fishnet pattern with holes in the strands to allow the material to stretch and deform. When they tested their new materials elasticity, they were delighted to find that it became slightly more conductive when stretched to twice its original length. The plastic remained very conductive even when stretched 800 percent its original length.
We thought that if we add insulating material, we would get really poor conductivity, especially when we added so much, said Bao. But thanks to their precise understanding of how to tune the molecular assembly, the researchers got the best of both worlds: the highest possible conductivity for the plastic while at the same transforming it into a very robust and stretchy substance.
By understanding the interaction at the molecular level, we can develop electronics that are soft and stretchy like skin, while remaining conductive, Wang says.
Other authors include postdoctoral fellows Chenxin Zhu, Francisco Molina-Lopez, Franziska Lissel and Jia Liu; graduate students Shucheng Chen and Noelle I. Rabiah; Hongping Yan and Michael F. Toney, staff scientists at SLAC National Accelerator Laboratory; Christian Linder, an assistant professor of civil and environmental engineering who is also a member of Stanford Bio-X and of the Stanford Neurosciences Institute; Boris Murmann, a professor of electrical engineering and a member of the Stanford Neurosciences Institute; Lihua Jin, now an assistant professor of mechanical and aerospace engineering at the University of California, Los Angeles; Zheng Chen, now an assistant professor of nano engineering at the University of California, San Diego; and colleagues from the Materials Science Institute of Barcelona, Spain, and Samsung Advanced Institute of Technology.
This work was funded by Samsung Electronics and the Air Force Office of Science Research.
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Stretchy electrode paves way for flexible electronics | Stanford News - Stanford University News
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