Yonsei researchers develop metal semiconductors to replace silicon devices Researchers at Yonsei University unveil revolutionary metal-based semiconductor technology ...
The work by researchers in the Center for Advanced Semiconductor Technologies could lead to energy-efficient microelectronics ...
Silicon nitride ceramic substrates play a pivotal role in Active Metal Brazing (AMB) substrates for power modules whose ...
BHUBANESWAR: India is set to indigenously develop customised silicon-power field effect transistors for electric vehicles (EVs) and other advanced applications. As part of the semiconductor mission, ...
“This collaboration highlights UB’s leadership in cutting-edge semiconductor research and its ability ... The presence of the 2D material between the metal and silicon – despite the MoS2 being less ...
To create the new batteries needed for electric vehicles, mobile devices and renewable energy storage, researchers have ...
Researchers at Osaka University in Suita, Japan, have devised a novel way to improve the performance of electronic devices. The study, published in ACS Applied Electronic ...
Transistors made from "stripes" of differently doped silicon next to one another are known as complementary metal-oxide semiconductors. Silicon is the backbone of the semiconductor industry ...
it is called a complementary metal-oxide semiconductor (CMOS, pronounced "sea-moss"). Many semiconductors start their lives as massive cylindrical ingots of monocrystalline silicon called boules.