- World’s first 2D, non-silicon computer developed | Penn State . . .
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
- Penn State research team builds 2D CMOS system - The Register
The team, led by Pennsylvania State University engineering science professor Saptarshi Das, published a paper last week detailing the design and construction of their 2D one instruction set computer (OISC) based on the same complementary metal-oxide-semiconductor design that's a standard part of modern silicon-based computers OISC is a
- The First 2D Computer Built Without Silicon Might Be a New . . .
Original story: World’s first 2D, non-silicon computer developed | Penn State University Penn State researchers build a working computer from 2D materials—no silicon required—marking a new chapter in ultra-thin, energy-efficient electronics
- World’s first 2D, non-silicon computer developed - mri. psu. edu
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
- Worlds first working 2D computer only one atom thick
Researchers at Penn State University have developed the world's first working computer built entirely from two-dimensional materials that are only one atom thick, potentially challenging silicon's long-standing dominance in electronics with a breakthrough that promises thinner, faster, and more energy-efficient devices
- 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
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