The first nitrogen polarized semiconductor in the world created by Chinese scientists can change the semiconductor industry.
The nitrogen nitrogen nitrogen nitrogen nitrogen semiconductor has a variety of applications. Image: stock
Chinese researchers published a breakthrough in the new generation semiconductor technology, with the introduction of the largest nitrogen nitrogen (20 cm) (20 cm). This semiconductor can reduce the cost by 40%, thereby promoting the application of technology in satellite communications and electrical vehicles (EV), MSN On 30/3 reported.
The liver is described as the top third -generation semiconductor. The liver is revolutionizing high -capacity and high -frequency applications such as 5G/6G networks, satellite communications, self -driving cars and radar systems, thanks to special physical characteristics. The material allows the production of large 100 W fast charging, reducing the loss of energy on EV 800 V platform to less than 5% and tripled with satellite communication bands. Industrial analysts predict liver can promote major changes in these areas after mass production technology reaches a critical destination.
The focus of the liver is in crystal polarization. While both nitrogen and gallium polar liver exist, the nitrogen ultra -performance version shows superior performance. However, in the past, strict development requirements and complex processes made the global production limited in small amounts of nitrogen liver semiconductor sheets about 5 – 10 cm at too high cost.
On March 22, the JFS laboratory research team in Wuhan, Hubei Province, the first announcement of the first 20 cm nitrogen semiconductor in the world on silicon substrates. This achievement helps reduce the cost of a semiconductor by 40% and increases the perforation voltage (the minimum voltage level so that the insulation starts to act as a conductor) of the device to 2,000 V.
In addition to contacting, the research team proves a dynamic microwave wireless system that can charge the drone that is flying within 20 m and provides energy for the automatic terminal at a kilometet. This technology also promises great potential for robots operating in factories, solar power plants in space, emergency rescue system and medical equipment.
The laboratory is putting 20 cm Nitrogen GNN technology into mass production. China accounted for 99% of refined gallium output in the world last year, according to some industrial estimates.