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Innovative Biocompatible Batteries In The Future

Author: Source: Datetime: 2016-09-06 08:55:02
Researchers at Carnegie Mellon University are developing an innovative biocompatible batteries, so the future can be ingested medical device development opens the door, there is the potential to revolutionize the treatment of cancer and other diseases. This is being developed biocompatible, non-toxic, edible battery is a natural melanin (in our skin, eyes and hair which can be found melanin) made of, and may be placed in 3d printed inside the capsule. The project leader Dr. bettinger recently disclosed their study in the American Chemical Society (acs) 252 National Conference and Exposition.

This innovative battery is a resorbable medical field is moving in a more efficient, the best example of a more targeted treatment forward. bettinger explained:.. "For decades, it has been envisaged that one day we will have an edible electronic equipment for diagnosis or treatment of disease, but if you want to use a product 'means' every day, then we must consider the problem of toxicity Therefore, look for bio-derived material to replace the current electronic products of these materials. "

Of course, a lifepo4 batteries into the human body which is a big risk, which is why the pacemaker battery must be wrapped in an insulated, isolated environment. With this in mind, biodegradable, non-toxic and can be absorbed battery development has the potential to become the key to achieving such miniature drug delivery device that can be repeated low-power applications.

In order to develop the battery can absorb, a team of scientists at Carnegie Mellon University have been studying natural melanin and other organic compounds. As we all know, we melanin can absorb UV protection, it can bind and unbind metal ion, which is basically a function of the battery. This inspired scientists to further study the possibility of it, as bettinger expressed as:. "We believe that it is basically a battery."

Scientists are using different melanoma cell prototype design. After the experiment, the scientists found that the use of 600 mg of the active cathode melanin do, they can be up to 18 hours of power a device 5 mW. So, while the battery is relatively low, but as a drug delivery system can absorb the supply is sufficient.

In addition to melanin-based batteries, the research team is also working to develop cell-based pectin. Pectin is derived from a natural gel implant is often used in the production of jams and jellies. As mentioned earlier, scientists currently use to create 3d printer battery shell capsules, which can swallow capsules is pla material.
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