Cryogenic silicon carbide transistor mimics neuron-like switching
A silicon carbide transistor uses negative differential resistance at millikelvin temperatures to enable low-power local control near quantum processors.
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A silicon carbide transistor uses negative differential resistance at millikelvin temperatures to enable low-power local control near quantum processors.
Plasma treatment weakens sulfur bonds, enabling precise room-temperature fabrication of Janus 2D semiconductors for advanced electronics.
Introducing a new computational method that predicts the electronic properties of semiconductors more accurately, including materials that existing methods can sometimes misclassif...
Scientists have uncovered hidden superconducting behaviour inside diamond, opening a path to multifunctional quantum chips that combine computing, sensing and communications. Resea...
Researchers have identified a hidden electronic state that emerges before superconductivity, offering fresh insights into how resistance-free electricity develops in quantum materi...
Researchers at KAIST have unveiled a groundbreaking solution to one of the most persistent challenges in semiconductor technology: the electrical bottleneck caused by contact resis...
Can 2D semiconductors replace silicon? A new pilot line targets 5nm-equivalent chips without relying on EUV lithography by 2029. Shanghai-based semiconductor start-up Yuanjiwei has...
Power devices for charging, AI servers, telecom networks, and EV systems have been launched with a focus on lower energy loss and smaller electronics. Cyient Semiconductors has int...
An undergraduate team is building semiconductor fabrication tools from scratch, showing a practical path to train India’s future chip manufacturing workforce. Students at IIT Bomba...
Researchers developed an AI-driven materials engine that rapidly identifies new gallium semiconductor candidates, potentially reducing years of chip-material testing and accelerati...
Glass substrates and glass interposers are emerging as key replacements for traditional organic substrates and silicon interposers in advanced chip packaging, with Intel investing...
Researchers developed a microlens based optical doping method called LAMP that raises 2D semiconductor transistor on-current by up to 63 times.
Atomically thin 2D transistors stayed efficient at chip-scale widths, easing a key hurdle for more powerful, lower-energy future electronics.
A computer built with a 2D semiconductor integrates more than 1,400 transistors on one chip, demonstrating a path toward AI and edge computing. Researchers from Nanjing University,...
A new plasma chemistry breakthrough could help manufacturers build the next generation of smaller, faster, and more powerful computer chips. Modern computer chips contain billions...
Synopsis: A niche small-cap is quietly building India’s high-power semiconductor backbone, powering defense systems, railway locomotives, EV chargers, and data centers. With a ₹618...
A groundbreaking advance in the search for two-dimensional (2D) semiconductors promises to accelerate the next generation of AI and ultra-low-power electronics. Researchers at KAIS...
Researchers have developed a single-atom-thick coating that could solve a major semiconductor interconnect challenge, enabling smaller, faster and more reliable chips while preserv...
Researchers have developed an AI-driven semiconductor analysis technique that extracts critical material properties from simple transistor measurements in less than a millisecond,...
Das Start-up Black Semiconductor hat mit dem Bau einer eigenen Fabrik in Aachen begonnen. So etwas haben hierzulande bislang nur Konzerne gewagt. Was Black Semiconductor anders mac...
A new approach controls low-cost solution processing of perovskites, improving the order of their thin layers for use in solar cells, LEDs and transistors.
By using a thin layer of diamond to manage excessive heat, researchers can boost the speed and energy-efficiency of next-generation wireless devices.
A nanoscale tube-in-wall structure localizes heat-carrying vibrations, sharply lowering thermal conductivity while staying compatible with chip manufacturing.
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