schwit1 shares a report from ScienceAlert: A team of Russian researchers have put a new spin on technology that uses the beta decay of a radioactive element to create differences in voltage. The devices are made of stacks of isotope of nickel-63 sandwiched between a pair of special semiconducting diodes called a Schottky barrier. This barrier keeps a current headed one way, a feature often used to turn alternating currents into direct ones. Finding that the optimal thickness of each layer was just 2 micrometers, the researchers were able to maximize the voltage produced by every gram of isotope.

Nickel-63 has a half-life of just over 100 years, which in an optimized system like this adds up to 3,300 milliwatt-hours of energy per gram: ten times the specific energy of your typical electrochemical cell. It’s a significant step up from previous nickel-63 betavoltaic devices, and while it isn’t quite enough to power your smart phone, it does bring it into a realm of being useful for a wide variety of tasks.

Read more of this story at Slashdot.

Source: Slashdot – Russian Scientists Upgrade Nuclear Battery Design To Increase Power Output