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Canada-94161-FLAG FLAGPOLES BANNERS PENNANTS 公司名录
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公司新闻:
- World’s first 2D, non-silicon computer developed
In a world first, a team led by researchers at Penn State used two-dimensional materials, which are only an atom thick and retain their properties at that scale, unlike silicon, to develop a computer capable of simple operations The advancement, published in Nature, represents a major leap toward the realization of thinner, faster and more energy-efficient electronics, the researchers said
- Atom-thin tech replaces silicon in the world’s first 2D computer
In a bold challenge to silicon s long-held dominance in electronics, Penn State researchers have built the world s first working CMOS computer entirely from atom-thin 2D materials Using
- Worlds first 2D material built computer completely ditches silicon
World’s first 2D material computer built without silicon by US scientists New 2D CMOS computer operates at low voltage and performs logic operations, marking a major step beyond silicon
- Worlds first working 2D computer only one atom thick
The researchers fabricated over 2,000 transistors to build what's known as a "one instruction set computer" capable of performing simple logic operations at up to 25 kilohertz 2 3 While this operating frequency is modest compared to conventional silicon circuits, the achievement is remarkable considering 2D materials research only began around 2010, compared to silicon's 80-year development
- Indian American researchers develop world’s first 2D, non-silicon computer
A team led by two Indian American researchers at Pennsylvania State University have developed the world’s first two-dimensional (2D), non-silicon computer capable of simple operations
- Worlds first non-silicon 2D computer developed - Tech Xplore
In a world first, they used two-dimensional (2D) materials, which are only an atom thick and retain their properties at that scale, unlike silicon, to develop a computer capable of simple operations The development, published in Nature , represents a major leap toward the realization of thinner, faster and more energy-efficient electronics, the researchers said
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