Electronic product battery problem has been a criticism, battery life is too short and heat is the main problem.
Now, a team of physicists led by Deepak Singh, an associate professor of physics and astronomy at the University of Missouri, has developed a material that solves both problems, which has patented the unique structure of magnetic materials, which has a ' hive ' lattice of unique electronic properties. The former chief researcher of Mu's magnetic and superconductivity Research laboratory, Mr Singh said: ' Semiconductor diodes and amplifiers, usually made of silicon or germanium, are the key to modern electronic devices, which typically conduct current and voltage through devices in only one bias direction, but when the voltage is reversed, the current stops, This switching process consumes a lot of energy, which can affect battery life.
' But if we replace semiconductors with magnetic systems, we believe we can create an efficient device that is more powerful and consumes less power.
' Singh's team developed a two-dimensional nanostructured material that deposited magnetic or palygorskite on the honeycomb structure of the silicon surface. The new material can conduct a one-way current, or a one-way flow of electricity.
Compared with the usual semiconductor diodes, the dissipation power of the material decreases significantly. "If successful, it means that a normal 5-hour battery life can increase to 500 hours," Singh said. We applied for a U.S. patent and started working with a company to help us bring the equipment to market.
